Skip to main content
SpringerLink
Log in
Book cover

Asteroseismology pp 669–677Cite as

The Future

  • Chapter
  • First Online:

  • 3136 Accesses

Part of the book series: Astronomy and Astrophysics Library ((AAL))

Abstract

Global helioseismology is a mature field of research. Some models of the Sun agree with the helioseismic observations of the sound speed to within a fraction of a percent over 90% of the solar radius – a stunning achievement. Eddington’s longed-for “appliance” to pierce the outer layers of a star and see within has been discovered; with helioseismology we see the interior of the Sun. In addition, we understand solar nuclear fusion reactions so well that we reproduce them both explosively and non-explosively here on Earth, and we even believe that we now understand solar neutrinos, with cosmic implications. Thus the standard solar model can be elevated to “understood physics” – physics that will undergo small modifications in the future, but for which a revolutionary paradigm is unlikely.

Where do we go from here? It is important to remind ourselves that the Sun is but one star. Our model of it is exceedingly good, based on the bedrock of laboratory atomic and nuclear physics, mechanics and electromagnetism. We have a self-consistent model of one “experiment”: the Sun. As with all physics experiments, we need to alter the initial conditions and run the experiment again and again, searching parameter space, probing for weaknesses in the model, probing for new physical understanding, searching for unimagined discoveries.

This is a preview of subscription content, log in via an institution.

Chapter
USD   29.95
Price excludes VAT (USA)
  • Available as PDF
  • Read on any device
  • Instant download
  • Own it forever
eBook
USD   149.00
Price excludes VAT (USA)
  • Available as EPUB and PDF
  • Read on any device
  • Instant download
  • Own it forever
Softcover Book
USD   199.99
Price excludes VAT (USA)
  • Compact, lightweight edition
  • Dispatched in 3 to 5 business days
  • Free shipping worldwide - see info
Hardcover Book
USD   279.99
Price excludes VAT (USA)
  • Durable hardcover edition
  • Dispatched in 3 to 5 business days
  • Free shipping worldwide - see info

Tax calculation will be finalised at checkout

Purchases are for personal use only

Learn about institutional subscriptions

Notes

  1. 1.

    http://www.ipac.caltech.edu/wire/.

  2. 2.

    http://www.astro.ubc.ca/MOST/.

  3. 3.

    http://corot.oamp.fr/.

  4. 4.

    http://www.kepler.arc.nasa.gov/.

  5. 5.

    http://astro.phys.au.dk/KASC/.

  6. 6.

    http://www.brite-constellation.at/.

  7. 7.

    http://lesia.obspm.fr/cosmicvision/plato/.

  8. 8.

    See http://sdo.gsfc.nasa.gov/.

  9. 9.

    See http://hmi.stanford.edu/.

  10. 10.

    http://sci.esa.int/science-e/www/area/index.cfm?fareaid=45.

  11. 11.

    http://astro.phys.au.dk/SONG/.

  12. 12.

    http://arena.unice.fr/.

  13. 13.

    http://mcba11.phys.unsw.edu.au/ plato/.

References

  1. Abramowitz M., Stegun I.A. (1965). Handbook of Mathematical Functions, Dover Publications Inc., New York

    Google Scholar 

  2. Abrams D., Kumar P. (1996). “Asymmetries of solar p-mode line profiles”, Astrophysical Journal,472, 882 – 890

    Google Scholar 

  3. Abt H. A., Levato H., Grosso M. (2002). “Rotational Velocities of B Stars”, Astrophysical Journal,573, 359 – 365

    Google Scholar 

  4. Aerts C. (1996). “Mode identification of pulsating stars from line-profile variations with the moment method: a more accurate discriminant”, Astronomy and Astrophysics,314, 115 – 122

    Google Scholar 

  5. Aerts C. (2000). “Follow-up photometry of six new β Cephei stars discovered from the HIPPARCOS mission”, Astronomy and Astrophysics,361, 245 – 257

    Google Scholar 

  6. Aerts C. (2007). “Asteroseismology of Close Binary Stars”, In Proc. IAU Symposium: Binary Stars as Critical Tools & Tests in Contemporary Astrophysics, Eds W.I. Hartkopf, E.F. Guinan, P. Harmanec, Cambridge University Press, 240, 432 – 441

    Google Scholar 

  7. Aerts C., De Cat P. (2003). “β Cep stars from a spectroscopic point of view”, Space Science Reviews,105, 453 – 492

    Google Scholar 

  8. Aerts C., Harmanec P. (2004). “Pulsating components in close binaries”, In Spectroscopically and Spatially Resolving the Components of the Close Binary Stars, Eds R. W. Hilditch, H. Hensberge, K. Pavlovski, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 318, 325 – 333

    Google Scholar 

  9. Aerts C., Kolenberg K. (2005). “HD 121190: A cool multiperiodic slowly pulsating B star with moderate rotation”, Astronomy and Astrophysics,431, 615 – 622

    Google Scholar 

  10. Aerts C., Waelkens C. (1993). “Line Profile Variations of Rotating Pulsating Stars”, Astronomy and Astrophysics,273, 135 – 146 (Erratum: Astronomy and Astrophysics,293, 978, 1995)

    Google Scholar 

  11. Aerts C., De Pauw M., Waelkens C. (1992). “Mode identification of pulsating stars from line profile variations with the moment method. an example - The Beta Cephei star Delta Ceti”, Astronomy and Astrophysics,266, 294 – 306

    Google Scholar 

  12. Aerts C., Mathias P., Gillet D., Waelkens C., 1994a, “Multiperiodicity and pulsation characteristics of β Cephei”, Astronomy and Astrophysics,286, 109 – 120

    Google Scholar 

  13. Aerts C., Waelkens C., De Pauw M., 1994b, “Mode identification with the moment method in four multiperiodic β Cephei stars: KK Velorum, ν Eri, β CMa, and V348 Normae”, Astronomy and Astrophysics,286, 136 – 148

    Google Scholar 

  14. Aerts C., Mathias P., Van Hoolst T., De Mey K., Sterken C., Gillet D. (1995). “Mode identification of the β Cephei star BW Vulpeculae”, Astronomy and Astrophysics,301, 781 – 787

    Google Scholar 

  15. Aerts C., De Cat P., Cuypers J., Becker S. R., Mathias P., De Mey K., Gillet D., Waelkens C., 1998a, “Evidence for binarity and multiperiodicity in the β Cephei star β Crucis”, Astronomy and Astrophysics,329, 137 – 146

    Google Scholar 

  16. Aerts C., Eyer L., Kestens E., 1998b, “The discovery of new gamma Doradus stars from the HIPPARCOS mission”, Astronomy and Astrophysics,337, 790 – 796

    Google Scholar 

  17. Aerts C., De Cat P., Peeters E., Decin L., De Ridder J., Kolenberg K., Meeus G., Van Winckel H., Cuypers J., Waelkens C. (1999). “Selection of a sample of bright southern Slowly Pulsating B Stars for long-term photometric and spectroscopic monitoring”, Astronomy and Astrophysics,343, 872 – 882

    Google Scholar 

  18. Aerts C., Bedding T. R., Christensen-Dalsgaard J. (Eds), 2002a, Radial and Nonradial Pulsations as Probes of Stellar Physics, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 259

    Google Scholar 

  19. Aerts C., Handler G., Arentoft T., Vandenbussche B., Medupe R., Sterken C., 2002b, “The δ Scuti star XX Pyx is an ellipsoidal variable”, Monthly Notices of the Royal Astronomical Society,333, L35 – L39

    Google Scholar 

  20. Aerts C., Lehmann H., Briquet M., Scuflaire R., Dupret M. A., De Ridder J., Thoul A., 2003a, Spectroscopic mode identification for the beta Cephei star EN (16) Lacertae, Astronomy and Astrophysics, 399, 639 – 645

    Google Scholar 

  21. Aerts C., Thoul A., Daszyńska J., Scuflaire R., Waelkens C., Dupret M. A., Niemczura E., Noels A., 2003b, “Asteroseismology of HD 129929: Core Overshooting and Nonrigid Rotation”, Science,300, 1926 – 1928

    Google Scholar 

  22. Aerts C., Cuypers J., De Cat P., Dupret M. A., De Ridder J., Eyer L., Scuflaire R., Waelkens C., 2004a, “Long-term multicolour photometry and high-resolution spectroscopy of the two γ Doradus stars HD 12901 and HD 48501”, Astronomy and Astrophysics,415, 1079 – 1088

    Google Scholar 

  23. Aerts C., De Cat P., Handler G., Heiter U., Balona L. A., Krzesinski J., Mathias P., Lehmann H., Ilyin I., De Ridder J., Dreizler S., Bruch A., Traulsen I., Hoffmann A., James D., Romero-Colmenero E., Maas T., Groenewegen M. A. T., Telting J. H., Uytterhoeven K., Koen C., Cottrell P. L., Bentley J., Wright D. J., Cuypers J., 2004b, “Asteroseismology of the β Cephei star ν Eridani - II. Spectroscopic observations and pulsational frequency analysis”, Monthly Notices of the Royal Astronomical Society,347, 463 – 470

    Google Scholar 

  24. Aerts C., Lamers H. J. G. L. M., Molenberghs G., 2004c, “Maximum mass-loss rates of line-driven winds of massive stars: the effect of rotation and an application to η Carinae”, Astronomy and Astrophysics,418, 639 – 648

    Google Scholar 

  25. Aerts C., Waelkens C., Daszyńska-Daszkiewicz J., Dupret M.-A., Thoul A., Scuflaire R., Uytterhoeven K., Niemczura E., Noels A., 2004d, “Asteroseismology of the β Cep star HD 129929. I. Observations, oscillation frequencies and stellar parameters”, Astronomy and Astrophysics,415, 241 – 249

    Google Scholar 

  26. Aerts C., De Cat P., De Ridder J., Van Winckel H., Raskin G., Davignon G., Uytterhoeven K., 2006a, “Multiperiodicity in the large-amplitude rapidly-rotating β Cephei star HD 203664”, Astronomy and Astrophysics,449, 305 – 311

    Google Scholar 

  27. Aerts C., De Cat P., Kuschnig R., Matthews J. M., Guenther D. B., Moffat A. F. J., Rucinski S. M., Sasselov D., Walker G. A. H., Weiss W. W., 2006b, “Discovery of the New Slowly Pulsating B Star HD 163830 (B5 II/III) from MOST Space-based Photometry”, Astrophysical Journal,642, L165 – L168

    Google Scholar 

  28. Aerts C., Marchenko S. V., Matthews J. M., Kuschnig R., Guenther D. B., Moffat A. F. J., Rucinski S. M., Sasselov D., Walker G. A. H., Weiss W. W., 2006c, “δ Ceti Is Not Monoperiodic: Seismic Modeling of a β Cephei Star from MOST Space-based Photometry”, Astrophysical Journal,642, 470 – 477

    Google Scholar 

  29. Aizenman M., Smeyers P., Weigert A. (1977). “Avoided crossing of modes of non-radial stellar oscillations”, Astronomy and Astrophysics, 58, 41 – 46

    Google Scholar 

  30. Alcock C., Allsman R. A., Alves D., Axelrod T. S., Becker A. C., Bennett D. P., Cook K. H., Freeman K. C., Griest K., Lehner M. J., Marshall S. L., Minniti D., Peterson B. A., Pratt M. R., Quinn P. J., Rodgers A. W., Rorabeck A., Sutherland W., Tomaney A., Vandehei T., Welch D. L., The MACHO Collaboration (1999). “The MACHO Project LMC Variable Star Inventory. VI. The Second Overtone Mode of Cepheid Pulsation from First/Second Overtone Beat Cepheids”, Astrophysical Journal,511, 185 – 192

    Google Scholar 

  31. Allende Prieto C., Asplund M., García López R. J., Lambert D. L. (2002). “Signatures of convection in the spectrum of Procyon: fundamental parameters and iron abundance”, Astrophysical Journal,567, 544 – 565

    Google Scholar 

  32. Anders E., Grevesse N. (1989). “Abundances of the elements: meteoritic and solar”, Geochim. Cosmochim. Acta,53, 197 – 214

    Google Scholar 

  33. Andersen A. C. (2007). “Dust from AGB stars”, In Why galaxies care about AGB stars: their importance as actors and probes, Eds F. Kerschbaum, C. Charbonnel, R. F. Wing, Publications of the Astronomical Society of the Pacific Conference Series, 378, 170 – 180

    Google Scholar 

  34. Andersen J., Nordström B., Clausen J. V. (1990). “New strong evidence for the importance of convective overshooting in intermediate-mass stars”, Astrophysical Journal,363, L33 – L36

    Google Scholar 

  35. Anderson E. R., Duvall T. L., Jefferies S. M. (1990). “Modeling of solar oscillation power spectra”, Astrophysical Journal,364, 699 – 705

    Google Scholar 

  36. Ando H., Osaki Y. (1975). “Nonadiabatic nonradial oscillations: An application to the five-minute oscillation of the sun”, Publications of the Astronomical Society of Japan,27, 581 – 603

    Google Scholar 

  37. Andreasen G. K., Petersen J. O. (1988). “Double mode pulsating stars and opacity changes”, Astronomy and Astrophysics,192, L4 – L6

    Google Scholar 

  38. Andrievsky S. M., Schönberner D., Drilling J. S. (2000). “Blue stragglers in open clusters. Part II”, Astronomy and Astrophysics,356, 517 – 528

    Google Scholar 

  39. Antia H. M. (1995). “Effects of surface layers on helioseismic inversion”, Monthly Notices of the Royal Astronomical Society,274, 499 – 503

    Google Scholar 

  40. Antia H. M. (1996). “Nonasymptotic helioseismic inversion: iterated seismic solar model”, Astronomy and Astrophysics,307, 609 – 623

    Google Scholar 

  41. Antia H. M. (2003). “Does the Sun shrink with increasing magnetic activity?”, Astrophysical Journal,590, 567 – 572

    Google Scholar 

  42. Antia H. M., Basu S., 1994a, “Nonasymptotic helioseismic inversion for solar structure”, Astronomy and Astrophysics Supplement Series,107, 421 – 444

    Google Scholar 

  43. Antia H. M., Basu S., 1994b, “Measuring the helium abundance in the solar envelope: the role of the equation of state”, Astrophysical Journal,426, 801 – 811

    Google Scholar 

  44. Antia H. M., Basu S. (2000). “Temporal variations of the rotation rate in the solar interior”, Astrophysical Journal,541, 442 – 448

    Google Scholar 

  45. Antia H. M., Basu S. (2001). “Temporal variations of the solar rotation rate at high latitudes”, Astrophysical Journal,559, L67 – L70

    Google Scholar 

  46. Antia H. M., Chitre S. M. (1998). “Determination of temperature and chemical composition profiles in the solar interior from seismic models”, Astronomy and Astrophysics,339, 239 – 251

    Google Scholar 

  47. Antia H. M., Basu S., Chitre S. M. (1998). “Solar internal rotation rate and the latitudinal variation of the tachocline”, Monthly Notices of the Royal Astronomical Society,298, 543 – 556

    Google Scholar 

  48. Antia H. M., Chitre S. M., Thompson M. J. (2000). “The Sun’s acoustic asphericity and magnetic fields in the solar convection zone”, Astronomy and Astrophysics,360, 335 – 344

    Google Scholar 

  49. Antia H. M., Chitre S. M., Thompson M. J. (2003). “On the variation of the latitudinal structure of the solar convection zone”, Astronomy and Astrophysics,399, 329 – 336

    Google Scholar 

  50. Antia H. M., Basu S., Chitre S. M. (2008). “Solar rotation rate and its gradients during cycle 23”, Astrophysical Journal,681, 680 – 692

    Google Scholar 

  51. Antipin S. (1997). “On the new triple-mode pulsating variable star GSC 4018.1807.”, Astronomy and Astrophysics,326, L1 – L4

    Google Scholar 

  52. Appourchaux T., Fröhlich C., Andersen B., Berthomieu G., Chaplin W. J., Elsworth Y., Finsterle W., Gough D. O., Isaak G. R., Kosovichev A. G., Provost J., Scherrer P. H., Sekii, T., Toutain T., 2000a, “Observational upper limits to low-degree solar g-modes”, Astrophysical Journal,538, 401 – 414

    Google Scholar 

  53. Appourchaux T., Chang H.-Y., Gough D. O., Sekii T., 2000b, “On measuring low-degree p-mode frequency splitting with full-disc integrated data”, Monthly Notices of the Royal Astronomical Society,319, 365 – 376

    Google Scholar 

  54. Arentoft T., Sterken C., Handler G., 2001a, “Low-frequency variability and binarity of the δ Scuti star XX Pyx”, Monthly Notices of the Royal Astronomical Society,326, 192 – 202

    Google Scholar 

  55. Arentoft T., Sterken C., Knudsen M. R., Handler G., Niarchos P., Gazeas K., Manimanis V., Moalusi M. B., Vuthela F. F., Van Cauteren P., 2001b, “Irregular amplitude variations and another abrupt period change in the δ Scuti star V 1162 Ori”, Astronomy and Astrophysics,378, L33 – L36

    Google Scholar 

  56. Arentoft T., De Ridder J., Grundahl F., Glowienka L., Waelkens C., Dupret M.-A., Grigahcène A., Lefever K., Jensen H. R., Reyniers M., Frandsen S., Kjeldsen H. (2007). “Oscillating blue stragglers, γ Doradus stars and eclipsing binaries in the open cluster NGC 2506”, Astronomy and Astrophysics,465, 965 – 979

    Google Scholar 

  57. Arentoft T., Kjeldsen H., Bedding T. R., Bazot M., Christensen-Dalsgaard J., Dall T. H., Karoff C., Carrier F., Eggenberger P., Sosnowska D., Wittenmyer R. A., Endl M., Metcalfe T. S., Hekker S., Reffert S., Butler R. P., Bruntt H., Kiss L. L., O’Toole S. J., Kambe E., Ando H., Izumiura H., Sato B., Hartmann M., Hatzes A., Bouchy F., Mosser B., Appourchaux T., Barban C., Berthomieu G., Garcia R. A., Michel E., Provost J., Turck-Chièze S., Martić M., Lebrun J.-C., Schmitt J., Bertaux J.-L., Bonanno A., Benatti S., Claudi R. U., Cosentino R., Leccia S., Frandsen S., Brogaard K., Glowienka L., Grundahl F., Stempels E. (2008). “A multisite campaign to measure solar-like oscillations in Procyon. I. Observations, data reduction and slow variations”, Astrophysical Journal, 687, 1180 – 1190

    Google Scholar 

  58. Arentoft T., Kjeldsen H., Bedding T. R. (2009). “Optimizing weights for the detection of stellar oscillations: application to α Centauri A and B, and β Hydri”, In Proc. SOHO XXI/GONG 2008: Solar-stellar dynamos as revealed by helio- and asteroseismology, Eds M. Dikpati, T. Arentoft, I. González Hernández, F. Hill, C. Lindsey, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, in press[arXiv:0901.3632v1 [astro-ph.SR]]

    Google Scholar 

  59. Arras P., Townsley D. M., Bildsten L. (2006). “Pulsational Instabilities in Accreting White Dwarfs”, Astrophysical Journal,643, L119 – L122

    Google Scholar 

  60. Asplund M. (2005). “New light on stellar abundance analysis: departures from LTE and homogeneity”, Annual Review of Astronomy and Astrophysics,43, 481 – 540

    Google Scholar 

  61. Asplund M. (2008). “Does the Sun have subsolar metallicity?”, In Proc. IAU Symp. 252: The Art of Modelling Stars in the 21stCentury, Eds L. Deng, K. L. Chan, IAU and Cambridge University Press, 13 – 26

    Google Scholar 

  62. Asplund M., Nordlund Å., Trampedach R., Allende Prieto C., Stein R. F. (2000). “Line formation in solar granulation. I. Fe line shapes, shifts and asymmetries”, Astronomy and Astrophysics,359, 729 – 742

    Google Scholar 

  63. Asplund M., Grevesse N., Sauval A. J., Allende Prieto C., Kiselman D. (2004). “Line formation in solar granulation. IV. [O I], O I and OH lines and the photospheric O abundance”, Astronomy and Astrophysics,417, 751 – 768 (Erratum: Astrononomy and Astrophysics435, 339 – 340)

    Google Scholar 

  64. Audard N., Kupka F., Morel P., Provost J., Weiss W. W. (1998). “The acoustic cut-off frequency of roAp stars”, Astronomy and Astrophysics,335, 954 – 958

    Google Scholar 

  65. Ausseloos M. (2005). Seismic Studies of selected Beta Cephei stars: Beta Centauri, Nu Eridani and 12 Lacertae, PhD Dissertation, Katholieke Universiteit Leuven, Belgium

    Google Scholar 

  66. Ausseloos M., Aerts C., Uytterhoeven K., Schrijvers C., Waelkens C., Cuypers J. (2002). “beta Centauri: An eccentric binary with two β Cep-type components”, Astronomy and Astrophysics,384, 209 – 214

    Google Scholar 

  67. Ausseloos M., Scuflaire R., Thoul A., Aerts C. (2004). “Asteroseismology of the β Cephei star ν Eridani: massive exploration of standard and non-standard stellar models to fit the oscillation data”, Monthly Notices of the Royal Astronomical Society,355, 352 – 358

    Google Scholar 

  68. Ausseloos M., Aerts C., Lefever K., Davis J., Harmanec P. (2006). “High-precision elements of double-lined spectroscopic binaries from combined interferometry and spectroscopy. Application to the β Cephei star β Centauri”, Astronomy and Astrophysics,455, 259 – 269

    Google Scholar 

  69. Ayres T. R. (2008). “Solar forbidden oxygen, revisited”, Astrophysical Journal,686, 731 – 740

    Google Scholar 

  70. Ayres T. R., Plymate C., Keller C. U. (2006). “Solar carbon monoxide, thermal profiling and the abundances of C, O, and their isotopes”, Astrophysical Journal Supplement Series,165, 618 – 651

    Google Scholar 

  71. Ayres T. R., Judge P. G., Saar S. H., Schmitt J. H. M. M. (2008). “The fainting of α Centauri A, resolved”, Astrophysical Journal, 678, L121 – L124

    Google Scholar 

  72. Baade D., 1982a, “Does 28 CMa have a photometric period differing from its spectroscopic period”, Astronomy and Astrophysics,110, L15 – L17

    Google Scholar 

  73. Baade D., 1982b, “An unusually short stable period of absorption line asymmetries and V/R variations in the spectrum of the Be star 28 CMa”, Astronomy and Astrophysics,105, 65 – 75

    Google Scholar 

  74. Baade D., Schmutz W., van Kerkwijk M. (1990). “Short-term activity in the Gamma(2) Velorum system - The O-type supergiant is a nonradially pulsating star”, Astronomy and Astrophysics,240, 105 – 115

    Google Scholar 

  75. Baade D., Stahl O., 1989a, “Rapid line profile-variability of the A-type shell- and possible pre-main sequence star HD 163296”, Astronomy and Astrophysics,209, 268 – 278

    Google Scholar 

  76. Baade D., Stahl O., 1989b, “New aspects of the variability of the probable pre-main sequence star HR 5999”, Astronomy and Astrophysics,209, 255 – 267

    Google Scholar 

  77. Bachmann K. T., Brown T. M. (1993). “p-mode frequency variation in relation to global solar activity”, Astrophysical Journal,411, L45 – L48

    Google Scholar 

  78. Bachmann K. T., Schou J., Brown T. M. (1993). “Observations of intermediate degree solar oscillations: 1989 April–June”, Astrophysical Journal,412, 870 – 879

    Google Scholar 

  79. Bachmann K. T., Duvall T. L., Harvey J. W., Hill F. (1995). “Measurement of high-degree solar oscillation frequencies”, Astrophysical Journal,443, 837 – 842

    Google Scholar 

  80. Backus G., Gilbert F. (1970). “Uniqueness in the inversion of inaccurate gross Earth data”, Phil. Trans. R. Soc. London, Ser. A,266, 123 – 192

    Google Scholar 

  81. Bagnulo S., Landi Degl’Innocenti E., Landolfi M., Leroy J. L. (1995). “Linear polarimetry of Ap stars. 3: A diagnostic method for the magnetic structure of rotating stars”, Astronomy and Astrophysics,295, 459 – 470

    Google Scholar 

  82. Bagnuolo W. G., Jr., Gies D. R. (1991). “Tomographic separation of composite spectra - The components of the O-star spectroscopic binary AO Cassiopeiae”, Astrophysical Journal,376, 266 – 271

    Google Scholar 

  83. Bahcall J. N. (1989). Neutrino astrophysics, Cambridge University Press, Cambridge

    Google Scholar 

  84. Bahcall J. N., Peña-Garay C. (2004). “Solar models and solar neutrino oscillations”, New Journal of Physics,6-63, 1 – 19

    Google Scholar 

  85. Bahcall J. N., Pinsonneault M. H. (1995). (With an appendix by G. J. Wasserburg), “Solar models with helium and heavy-element diffusion”, Reviews of Modern Physics,67, 781 – 808

    Google Scholar 

  86. Bahcall J. N., Pinsonneault M. H., Basu S. (2001). “Solar models: current epoch and time dependences, neutrinos, and helioseismological properties”, Astrophysical Journal,555, 990 – 1012

    Google Scholar 

  87. Bahcall J. N., Basu S., Pinsonneault M., Serenelli A. M., 2005a, “Helioseismological implications of recent solar abundance determinations”, Astrophysical Journal,618, 1049 – 1056

    Google Scholar 

  88. Bahcall J. N., Basu S., Serenelli A. M., 2005b, “What is the neon abundance of the Sun?”, Astrophysical Journal,631, 1281 – 1285

    Google Scholar 

  89. Bailes M., Lyne A. G., Shemar S. L. (1991). “A planet orbiting the neutron star PSR1829 - 10”, Nature,352, 311 – 313

    Google Scholar 

  90. Bailyn C. D. (1995). “Blue Stragglers and Other Stellar Anomalies:Implications for the Dynamics of Globular Clusters”, Annual Review of Astronomy and Astrophysics,33, 133 – 162

    Google Scholar 

  91. Bailyn C. D., Pinsonneault M. H. (1995). “On the luminosity function, lifetimes and origin of blue stragglers in globular clusters”, Astrophysical Journal, 439, 705 – 714

    Google Scholar 

  92. Baker N. H. (1987). “Time dependent convection in stars – a review of the theories”, In Physical Processes in Comets, Stars and Active Galaxies, Eds W. Hillebrandt, E. Meyer-Hofmeister, H.-C. Thomas, Springer, Berlin, p. 105 – 124

    Google Scholar 

  93. Baker N. H., Gough D. O. (1979). “Pulsations of model RR Lyrae stars”, Astrophysical Journal,234, 232 – 244

    Google Scholar 

  94. Baker N., Kippenhahn R. (1962). “The pulsations of models of δ Cephei stars”, Zeitung für Astrophysik,54, 115 – 151

    Google Scholar 

  95. Baker N., Kippenhahn R. (1965). “The pulsations of models of delta Cephei stars. II”, Astrophysical Journal,142, 868 – 889

    Google Scholar 

  96. Baldner C. S., Basu S. (2008). “Solar cycle related changes at the base of the convection zone”, Astrophysical Journal,686, 1349 – 1361

    Google Scholar 

  97. Baldry I. K., Bedding T. R., Viskum M., Kjeldsen H., Frandsen S. (1998). “Spectroscopy of the roAp star α Cir. I - Velocities of H-alpha and metal lines”, Monthly Notices of the Royal Astronomical Society,295, 33 – 42

    Google Scholar 

  98. Baldry I. K., Viskum M., Bedding T. R., Kjeldsen H., Frandsen S. (1999). “Spectroscopy of the roAp star α Cir – II. The bisector and equivalent width of the Hα line”, Monthly Notices of the Royal Astronomical Society,302, 381 – 390

    Google Scholar 

  99. Baldry I. K., Bedding T. R. (2000). “Time-series spectroscopy of the rapidly oscillating Ap star HR 3831”, Monthly Notices of the Royal Astronomical Society,318, 341 – 353

    Google Scholar 

  100. Ballot J., Turck-Chièze S., García R. A. (2004). “Seismic extraction of the convective extent in solar-like stars. The observational point of view”, Astronomy and Astrophysics,423, 1051 – 1061

    Google Scholar 

  101. Ballot J., García R. A., Lambert P. (2006). “Rotation speed and stellar axis inclination from modes: how CoRoT would see other suns”, Monthly Notices of the Royal Astronomical Society, 369, 1281 – 1286

    Google Scholar 

  102. Ballot J., Appourchaux T., Toutain T., Guittet M. (2008). “On deriving p-mode parameters for inclined solar-like stars”, Astronomy and Astrophysics, 486, 867 – 875

    Google Scholar 

  103. Balmforth N. J., 1992a, “Solar pulsational stability. I: Pulsation-mode thermodynamics”, Monthly Notices of the Royal Astronomical Society,255, 603 – 631

    Google Scholar 

  104. Balmforth N. J., 1992b, “Solar pulsational stability. II: Pulsation frequencies”, Monthly Notices of the Royal Astronomical Society, 255, 632 – 638

    Google Scholar 

  105. Balmforth N. J., 1992c, “Solar pulsational stability. III: Acoustical excitation by turbulent convection”, Monthly Notices of the Royal Astronomical Society, 255, 639 – 649

    Google Scholar 

  106. Balmforth N. J., Cunha M. S., Dolez N., Gough D. O., Vauclair S. (2001). “On the excitation mechanism in roAp stars”, Monthly Notices of the Royal Astronomical Society, 323, 362 – 372

    Google Scholar 

  107. Balmforth N. J., Gough D. O. (1990). “Effluent stellar pulsation”, Astrophysical Journal,362, 256 – 266

    Google Scholar 

  108. Balmforth N. J., Gough D. O., Merryfield W. J. (1996). “Structural changes to the Sun through the solar cycle”, Monthly Notices of the Royal Astronomical Society,278, 437 – 448

    Google Scholar 

  109. Balona L. A., 1986a, “Mode identification from line profile variations”, Monthly Notices of the Royal Astronomical Society,219, 111 – 129

    Google Scholar 

  110. Balona L. A., 1986b, “Mode identification from line profile variations. II - A quantitative least-squares algorithm”, Monthly Notices of the Royal Astronomical Society, 220, 647 – 656

    Google Scholar 

  111. Balona L. A. (1987). “Mode identification from line profile variations. III - Temperature variation and toroidal modes”, Monthly Notices of the Royal Astronomical Society,224, 41 – 52

    Google Scholar 

  112. Balona L. A. (1994). “Effective Temperature Bolometric Correction and Mass Calibration of O-F”, Monthly Notices of the Royal Astronomical Society,268, 119 – 127

    Google Scholar 

  113. Balona L. A., 1995a, “Tests of the Pulsation and Starspot Models for the Periodic Be-Stars”, Monthly Notices of the Royal Astronomical Society,277, 1547 – 1554

    Google Scholar 

  114. Balona L. A., 1995b, “The Early-Type Variables”, Astrophysics and Space Science,230, 17 – 28

    Google Scholar 

  115. Balona L. A. (2002). “Radial velocity study of the roAp star HR 3831”, Monthly Notices of the Royal Astronomical Society,337, 1059 – 1067

    Google Scholar 

  116. Balona L. A., Dziembowski W. A. (1999). “Excitation and visibility of high-degree modes in stars”, Monthly Notices of the Royal Astronomical Society,309, 221 – 232

    Google Scholar 

  117. Balona L. A., Evers E. A. (1999). “Mode identification and asteroseismology of delta Scuti stars”, Monthly Notices of the Royal Astronomical Society,302, 349 – 361

    Google Scholar 

  118. Balona L. A., Laney C. D. (2003). “Radial velocity study of the roAp star α Circinus ”, Monthly Notices of the Royal Astronomical Society,344, 242 – 246

    Google Scholar 

  119. Balona L. A., Stobie R. S. (1979). “The effect of radial and non-radial stellar oscillations on the light, colour and velocity variations”, Monthly Notices of the Royal Astronomical Society,189, 649 – 658

    Google Scholar 

  120. Balona L. A., Zima W. (2002). “Radial velocity study of the roAp star HR 1217”, Monthly Notices of the Royal Astronomical Society,336, 873 – 878

    Google Scholar 

  121. Balona L. A., Böhm T., Foing B. H., Ghosh K. K., Janot-Pacheco E., Krisciunas K., Lagrange A.-M., Lawson W. A., James S. D., Baudrand J., Catala C., Dreux M., Felenbok P., Hearnshaw J. B. (1996). “Line profile variations in γ Doradus”, Monthly Notices of the Royal Astronomical Society,281, 1315 – 1325

    Google Scholar 

  122. Balona L. A., Dziembowski W. A., Pamyatnykh A. (1997). “The structure of the instability strip and mode identification for β Cep stars in three young open clusters”, Monthly Notices of the Royal Astronomical Society, 289, 25 – 36

    Google Scholar 

  123. Balona L. A., Aerts C., Štefl S. (1999). “Simultaneous photometry and spectroscopy of the Be star 28 (ω) CMa - II. Line profile modelling”, Monthly Notices of the Royal Astronomical Society,305, 519 – 526

    Google Scholar 

  124. Balona L. A., James D. J., Motsoasele P., Nombexeza B., Ramnath A., van Dyk J. (2002). “Short-period line profile and light variations in the Beta Cephei star 19 Monocerotis”, Monthly Notices of the Royal Astronomical Society,333, 952 – 960

    Google Scholar 

  125. Baranne A., Queloz D., Mayor M., Adrianzyk G., Knispel G., Kohler D., Lacroix D., Meunier J.-P., Rimbaud G., Vin A. (1996). “ELODIE: A spectrograph for accurate radial velocity measurements”, Astronomy and Astrophysics Supplement Series,119, 373 – 390

    Google Scholar 

  126. Barban C., Matthews J. M., De Ridder J., Baudin F., Kuschnig R., Mazumdar A., Samadi R., Guenther D. B., Moffat A. F. J., Rucinski S. M., Sasselov D., Walker G. A. H., Weiss W. W. (2007). “Detection of solar-like oscillations in the red giant star ε Ophiuchi by MOST spacebased photometry”, Astronomy and Astrophysics,468, 1033 – 1038

    Google Scholar 

  127. Barnes S. A. (2007). “Ages for illustrative field stars using gyrochronology: validity, limitations, and errors”, Astrophysical Journal,669, 1167 – 1189

    Google Scholar 

  128. Basu S. (1997). “Seismology of the base of the solar convection zone”, Monthly Notices of the Royal Astronomical Society,288, 572 – 584

    Google Scholar 

  129. Basu S. (1998). “Effects of errors in the solar radius on helioseismic inferences”, Monthly Notices of the Royal Astronomical Society,298, 719 – 728

    Google Scholar 

  130. Basu S., Antia H. M. (1994). “Effects of diffusion on the extent of overshoot below the solar convection zone”, Monthly Notices of the Royal Astronomical Society,269, 1137 – 1144

    Google Scholar 

  131. Basu S., Antia H. M. (1995). “Helium abundance in the solar envelope”, Monthly Notices of the Royal Astronomical Society,276, 1402 – 1408

    Google Scholar 

  132. Basu S., Antia H. M. (1997). “Seismic measurement of the depth of the solar convection zone”, Monthly Notices of the Royal Astronomical Society,287, 189 – 198

    Google Scholar 

  133. Basu S., Antia H. M. (2001). “A study of possible temporal and latitudinal variations in the properties of the solar tachocline”, Monthly Notices of the Royal Astronomical Society,324, 498 – 508

    Google Scholar 

  134. Basu S., Antia H. M. (2003). “Changes in solar dynamics from 1995 to 2002”, Astrophysical Journal,585, 553 – 565

    Google Scholar 

  135. Basu S., Antia H. M. (2004). “Constraining solar abundances using helioseismology”, Astrophysical Journal,606, L85 – L88

    Google Scholar 

  136. Basu S., Antia H. M. (2008). “Helioseismology and solar abundances”, Phys. Rep.,457, 217 – 283

    Google Scholar 

  137. Basu S., Christensen-Dalsgaard J. (1997). “Equation of state and helioseismic inversions”, Astronomy and Astrophysics,322, L5 – L8

    Google Scholar 

  138. Basu S., Mandel A. (2004). “Does solar structure vary with solar magnetic activity?” Astrophysical Journal,617, L155 – L158

    Google Scholar 

  139. Basu S., Thompson M. J. (1996). “On constructing seismic models of the Sun”, Astronomy and Astrophysics,305, 631 – 642

    Google Scholar 

  140. Basu S., Christensen-Dalsgaard J., Pérez Hernández F., Thompson M. J. (1996). “Filtering out near-surface uncertainties from helioseismic inversions”, Monthly Notices of the Royal Astronomical Society,280, 651 – 660

    Google Scholar 

  141. Basu S., Christensen-Dalsgaard J., Thompson M. J., 1997a, “SVD preprocessing of helioseismic data for solar structure inversion”, Astronomy and Astrophysics,321, 634 – 642

    Google Scholar 

  142. Basu S., Chaplin W. J., Christensen-Dalsgaard J., Elsworth Y., Isaak G. R., New R., Schou J., Thompson M. J., Tomczyk S., 1997b, “Solar internal sound speed as inferred from combined BiSON and LOWL oscillation frequencies”, Monthly Notices of the Royal Astronomical Society,292, 243 – 251

    Google Scholar 

  143. Basu S., Däppen W., Nayfonov A. (1999). “Helioseismic analysis of the hydrogen partition function in the solar interior”, Astrophysical Journal,518, 985 – 993

    Google Scholar 

  144. Basu S., Turck-Chièze S., Berthomieu G., Brun A. S., Corbard T., Gonczi G., Christensen-Dalsgaard J., Provost J., Thiery S., Gabriel A. H., Boumier P., 2000a, “Structure of the solar core: Effect of asymmetry of peak profiles”, Astrophysical Journal,535, 1078 – 1084

    Google Scholar 

  145. Basu S., Pinsonneault M. H., Bahcall J. N., 2000b, “How much do helioseismological inferences depend on the assumed reference model?”, Astrophysical Journal,529, 1084 – 1100

    Google Scholar 

  146. Basu S., Christensen-Dalsgaard J., Thompson M. J. (2002). “SOLA inversions for the core structure of solar-type stars”, In Proc. 1st Eddington Workshop, ‘Stellar Structure and Habitable Planet Finding’, Eds F. Favata, I. W. Roxburgh and D. Galadí-Enríquez, ESA SP-485, ESA Publications Division, Noordwijk, The Netherlands, 249 – 252

    Google Scholar 

  147. Basu S., Christensen-Dalsgaard J., Howe R., Schou J., Thompson M. J., Hill F., Komm R. (2003). “A comparison of solar p-mode parameters from MDI and GONG: mode frequencies and structure inversions”, Astrophysical Journal,591, 432 – 445

    Google Scholar 

  148. Basu S., Mazumdar A., Antia H. M., Demarque P. (2004). “Asteroseismic determination of helium abundance in stellar envelopes”, Monthly Notices of the Royal Astronomical Society, 350, 277 – 286

    Google Scholar 

  149. Basu S., Chaplin W. J., Elsworth Y., New R., Serenelli A. M., Verner G. A. (2007). “Solar abundances and helioseismology: fine-structure spacings and separation ratios of low-degree p-modes”, Astrophysical Journal,655, 660 – 671

    Google Scholar 

  150. Batchelor G. K. (1956). The theory of homogeneous turbulence, Cambridge University Press

    Google Scholar 

  151. Batchelor G. K. (1967). An introduction to fluid dynamics, Cambridge University Press

    Google Scholar 

  152. Baturin V. A., Däppen W., Gough D. O., Vorontsov S. V. (2000). “Seismology of the solar envelope: sound-speed gradient in the convection zone and its diagnosis of the equation of state”, Monthly Notices of the Royal Astronomical Society,316, 71 – 83

    Google Scholar 

  153. Bazot M., Bouchy F., Kjeldsen H., Charpinet S., Laymand M., Vauclair S. (2007). “Asteroseismology of α Centauri A. Evidence of rotational splitting”, Astronomy and Astrophysics,470, 295 – 302

    Google Scholar 

  154. Beauchamp A., Wesemael F., Bergeron P., Fontaine G., Saffer R. A., Liebert J., Brassard P. (1999). “Spectroscopic Studies of DB White Dwarfs: The Instability Strip of the Pulsating DB (V777 Herculis) Stars”, Astrophysical Journal,516, 887 – 891

    Google Scholar 

  155. Bedding T. R. (2003). “Solar-like Oscillations in Semiregular Variables”, Astrophysics and Space Science,284, 61 – 64

    Google Scholar 

  156. Bedding T. R., Kjeldsen H. (2003). “Solar-like Oscillations”, Publications of the Astronomical Society of Australia,20, 203 – 212

    Google Scholar 

  157. Bedding T. R., Kjeldsen H. (2007). “Observations of solar-like oscillations”, Communications in Asteroseismology,150, 106 – 114

    Google Scholar 

  158. Bedding T. R., Kjeldsen H., Reetz J., Barbuy B. (1996). “Measuring stellar oscillations using equivalent widths of absorption lines”, Monthly Notices of the Royal Astronomical Society, 280, 1155 – 1161

    Google Scholar 

  159. Bedding, T. R., Kjeldsen, H., Christensen-Dalsgaard, J. (1998). “HIPPARCOS Parallaxes for η Boo and κ2 Boo: Two successes for asteroseismology”, In Proc. Tenth Cambridge Workshop on Cool Stars, Stellar Systems and the Sun, Eds Donahue, R. A., Bookbinder, J. A., Astronomical Sosciety of the Pacific Conference Series, San Francisco, 154,, 741 – 744

    Google Scholar 

  160. Bedding T. R., Butler R. P., Kjeldsen H., Baldry I. K., O’Toole S. J., Tinney C. G., Marcy G. W., Kienzle F., Carrier F. (2001). “Evidence for Solar-like Oscillations in β Hydri”, Astrophysical Journal,549, L105 – L108

    Google Scholar 

  161. Bedding T. R., Kjeldsen H., Butler R. P., McCarthy C., Marcy G. W., O’Toole S. J., Tinney C. G., Wright J. T. (2004). “Oscillation Frequencies and Mode Lifetimes in α Centauri A”, Astrophysical Journal,614, 380 – 385

    Google Scholar 

  162. Bedding T. R., Kiss L. L., Kjeldsen H., Brewer B. J., Dind Z. E., Kawaler S. D., Zijlstra A. A. (2005). “The light curve of the semiregular variable L2 Puppis - II. Evidence for solar-like excitation of the oscillations”, Monthly Notices of the Royal Astronomical Society,361, 1375 – 1381

    Google Scholar 

  163. Bedding T. R., Kjeldsen H., Bouchy F., Bruntt H., Butler R. P., Buzasi D. L., Christensen-Dalsgaard J., Frandsen S., Lebrun J.-C., Martić M., Schou J. (2005). “The non-detection of oscillations in Procyon by MOST: Is it really a surprise?”, Astronomy and Astrophysics,432, L43 – L48

    Google Scholar 

  164. Bedding T. R., Kjeldsen H., Arentoft T., Bouchy F., Brandbyge J., Brewer B. J., Butler R. P., Christensen-Dalsgaard J., Dall T., Frandsen S., Karoff C., Kiss L. L., Monteiro M. J. P. F. G., Pijpers F. P., Teixeira T. C., Tinney C. G., Baldry I. K., Carrier F., O’Toole S. J. (2007). “Solar-like Oscillations in the G2 Subgiant β Hydri from Dual-Site Observations”, Astrophysical Journal,663, 1315 – 1324

    Google Scholar 

  165. Beichman C. A., Chester T. J., Skrutskie M., Low F. J., Gillett F. (1998). “Characteristics of the 2MASS Prototype Survey”, Publications of the Astronomical Society of the Pacific,110, 480 – 489

    Google Scholar 

  166. Belkacem K., Samadi R., Goupil M. J., Dupret M.-A. (2008). “Stochastic excitation of non-radial modes. I. High-angular-degree p modes”, Astronomy and Astrophysics, 478, 163 – 174

    Google Scholar 

  167. Belkacem K., Samadi R., Goupil M. J., Dupret M. A., Brun A. S., Baudin F. (2009). “Stochastic excitation of nonradial modes. II. Are solar asymptotic gravity modes detectable?” Astronomy and Astrophysics,494, 191 – 204

    Google Scholar 

  168. Beltrame M., Poretti E. (2002). “HD 304373, the second case of 1O/2O double-mode Cepheid in the Galaxy”, Astronomy and Astrophysics,386, L9 – L12

    Google Scholar 

  169. Berdyugina S. V., Telting J. H., Korhonen H., 2003a, “Surface imaging of stellar non-radial pulsations. I. Inversions of simulated data”, Astronomy and Astrophysics,406, 273 – 280

    Google Scholar 

  170. Berdyugina S. V., Telting J. H., Korhonen H., Schrijvers C., 2003b, “Surface imaging of stellar non-radial pulsations. II. The β Cephei star ω1 Sco”, Astronomy and Astrophysics,406, 281 – 285

    Google Scholar 

  171. Bergeron P., Fontaine G., Billères M., Boudreault S., Green E. M. (2004). “On the Purity of the ZZ Ceti Instability Strip: Discovery of More Pulsating DA White Dwarfs on the Basis of Optical Spectroscopy”, Astrophysical Journal,600, 404 – 408

    Google Scholar 

  172. Berrilli F., Corciulo G., Ingrosso G., Lorenzetti D., Nisini B., Strafella F. (1992). “Infrared emission from dust structures surrounding Herbig Ae/Be stars”, Astrophysical Journal,398, 254 – 272

    Google Scholar 

  173. Bersier D., Burki G., Mayor M., Duquennoy A. (1994). “Fundamental parameters of Cepheids. II. Radial velocity data”, Astronomy and Astrophysics Supplement Series,108, 25 – 39

    Google Scholar 

  174. Berthomieu G., Gonczi G., Graff Ph., Provost J., Rocca A. (1978). “Low-frequency gravity modes of a rotating star”, Astronomy and Astrophysics,70, 597 – 606

    Google Scholar 

  175. Bertiau F. C. (1957). “The orbits of the spectroscopic binaries rho Orionis, eta Bootis, and 32 Virginis”, Astrophysical Journal, 125, 696 – 706

    Google Scholar 

  176. Bevington P. R., Robinson D. K. (1992). Data Reduction and Error Analysis for the Physical Sciences, 2nd edition, McGraw-Hill, New York

    Google Scholar 

  177. Bessell M. S. (2005). “Standard Photometric Systems”, Annual Review of Astronomy and Astrophysics,43, 293 – 336

    Google Scholar 

  178. Biermann L. (1947). “Über die Ursache der chromosphärischen Turbulenz und des UV-Exzesses der Sonnenstrahlung”, Zeitung für Astrophysik, 25, 161 – 177

    Google Scholar 

  179. Bigot L., Dziembowski W. A. (2002). “The oblique pulsator model revisited”, Astronomy and Astrophysics,391, 235 – 245

    Google Scholar 

  180. Bigot L., Provost J., Berthomieu G., Dziembowski W. A., Goode P. R. (2000). “Non-axisymmetric oscillations of roAp stars”, Astronomy and Astrophysics,356, 218 – 233

    Google Scholar 

  181. Bildsten L., Ushomirsky G., Cutler C. (1996). “Ocean g-modes on rotating neutron stars”, Astrophysical Journal,460, 827 – 831

    Google Scholar 

  182. Birch A. C., Kosovichev A. G. (1998). “Latitudinal variation of solar subsurface rotation inferred from p-mode frequency splittings measured with SOI-MDI and GONG”, Astrophysical Journal,503, L187 – L190

    Google Scholar 

  183. Blažko S. (1907). “Mitteilung über veränderliche Sterne”, Astronomische Nachrichten,175, 325 – 326

    Google Scholar 

  184. Bloomfield P. (1976). Fourier analysis of time series: an introduction, Wiley Series in Probability and Mathematical Statistics, New York: Wiley

    Google Scholar 

  185. Böhm-Vitense E. (1958). “Über die Wasserstoffkonvektionszone in Sternen verschiedener Effektivtemperaturen und Leuchtkräfte”, Zeitung für Astrophysik, 46, 108 – 143

    Google Scholar 

  186. Bonanno A., Schlattl H., Paternò L. (2002). “The age of the Sun and the relativistic corrections in the EOS”, Astronomy and Astrophysics, 390, 1115 – 1118

    Google Scholar 

  187. Bono G., Caputo F., Marconi M. (1995). “The Topology of the RR Lyrae Instability Strip and the Oosterhoff Dichotomy”, Astronomical Journal,110, 2365 – 2368

    Google Scholar 

  188. Bono G., Caputo F., Santolamazza P. (1997). “Evolutionary scenario for metal-poor pulsating stars. I. Type II Cepheids”, Astronomy and Astrophysics,317, 171 – 177

    Google Scholar 

  189. Bono G., Caputo F., Marconi M., Santolamazza P. (2002). “Oscillating Blue Stragglers in Galactic globular clusters”, In Observational Aspects of Pulsating B- and A Stars, Eds C. Sterken, D. W. Kurtz, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 256, 249

    Google Scholar 

  190. Bouchy F., Carrier F. (2001). “P-mode observations on α Cen A”, Astronomy and Astrophysics,374, L5 – L8

    Google Scholar 

  191. Bouchy F., Carrier F. (2002). “The acoustic spectrum of alpha Cen A”, Astronomy and Astrophysics,390, 205 – 212

    Google Scholar 

  192. Bouchy F., Pepe F., Queloz D. (2001). “Fundamental photon noise limit to radial velocity measurements”, Astronomy and Astrophysics,374, 733 – 739

    Google Scholar 

  193. Bourge P.-O., Alecian G., Thoul A., Scuflaire R., Theado S. (2006). “Radiative forces and pulsation in β Cephei stars”, Communications in Asteroseismology,147, 105 – 108

    Google Scholar 

  194. Bourge P.-O., Théado S., Thoul A. (2007). “Effects of diffusion in β Cephei stars”, Communications in Asteroseismology,150, 203 – 204

    Google Scholar 

  195. Boury A., Gabriel M., Noels A., Scuflaire R., Ledoux P. (1975). “Vibrational instability of a 1 M star towards non-radial oscillations”, Astronomy and Astrophysics,41, 279 – 285

    Google Scholar 

  196. Bracewell R. (1999). The Fourier Transform and Its Applications, McGraw-Hill Science Engineering

    Google Scholar 

  197. Bradley P. A. (1995). “The DBV Stars: Progress and Problems”, Baltic Astronomy,4, 311 – 320

    Google Scholar 

  198. Bradley P. A., Winget D. E. (1991). “Asteroseismology of white dwarf stars. I - Adiabatic results”, Astrophysical Journal Supplement Series,75, 463 – 497

    Google Scholar 

  199. Bradley P. A., Winget D. E., Wood M. A. (1993). “The potential for asteroseismology of DB white dwarf stars”, Astrophysical Journal,406, 661 – 673

    Google Scholar 

  200. Brassard P., Fontaine G. (2006). “Effects of diffusion of chemical elements on the period structure: an experiment with the pulsating DA white dwarf GD 165”, Memorie della Societa Astronomica Italiana77, 439 – 440

    Google Scholar 

  201. Brassard P., Fontaine G., Wesemael F., Hansen C. J. (1992). “Adiabatic properties of pulsating DA white dwarfs. II - Mode trapping in compositionally stratified models”, Astrophysical Journal Supplement Series,80, 369 – 401

    Google Scholar 

  202. Brassard P., Fontaine G., Wesemael F. (1995). “The modeling of energy distributions and light curves of ZZ Ceti stars. 1: Basic theory and semianalytic expressions for the emergent flux”, Astrophysical Journal Supplement Series,96, 545 – 580

    Google Scholar 

  203. Brassard P., Fontaine G., Billères M., Charpinet S., Liebert J., Saffer R. A. (2001). “Discovery and Asteroseismological Analysis of the Pulsating sdB Star PG 0014+067”, Astrophysical Journal,563, 1013 – 1030

    Google Scholar 

  204. Breger M. (1972). “Pre-Main Sequence Stars. I. Light Variability, Shells, and Pulsation in NGC 2264”, Astrophysical Journal,171, 539 – 548

    Google Scholar 

  205. Breger M. (2000). “The multiperiodic δ Scuti star 4 Canum Venaticorum: amplitude variability”, Monthly Notices of the Royal Astronomical Society,313, 129 – 135

    Google Scholar 

  206. Breger M., Montgomery M. (Eds) (2000). Delta Scuti and Related Stars, Astronomical Society of the Pacific Conference Series, San Francisco, 210

    Google Scholar 

  207. Breger M., Pamyatnykh A. A. (1998). “Period changes of δ Scuti stars and stellar evolution”, Astronomy and Astrophysics,332, 958 – 968

    Google Scholar 

  208. Breger M., Pamyatnykh A. A. (2006). “Amplitude variability or close frequencies in pulsating stars - the δ Scuti star FG Vir”, Monthly Notices of the Royal Astronomical Society,368, 571 – 578

    Google Scholar 

  209. Breger M., Stich J., Garrido R., Martin B., Jiang S. Y., Li Z. P., Hube D. P., Ostermann W., Paparo M., Scheck M. (1993). “Nonradial Pulsation of the Delta-Scuti Star Bu-Cancri in the Praesepe Cluster”, Astronomy and Astrophysics,271, 482 – 486

    Google Scholar 

  210. Breger M., Handler G., Garrido R., Audard N., Zima W., Paparó M., Beichbuchner F., Zhi-Ping L., Shi-Yang J., Zong-Li L., Ai-Ying Z., Pikall H., Stankov A., Guzik J. A., Sperl M., Krzesinski J., Ogloza W., Pajdosz G., Zola S., Thomassen T., Solheim J.-E., Serkowitsch E., Reegen P., Rumpf T., Schmalwieser A., Montgomery M. H., 1999a, “30+ frequencies for the delta Scuti variable 4 Canum Venaticorum: results of the 1996 multisite campaign”, Astronomy and Astrophysics,349, 225 – 235

    Google Scholar 

  211. Breger M., Pamyatnykh A. A., Pikall H., Garrido R., 1999b, “The delta Scuti star FG Virginis. IV. Mode identifications and pulsation modelling”, Astronomy and Astrophysics, 341, 151 – 162

    Google Scholar 

  212. Breger M., Pamyatnykh A. A., Zima W., Garrido R., Handler G., Reegen P. (2002). “Pulsation of the δ Scuti star θ2 Tau: new multisite photometry and modelling of instability”, Monthly Notices of the Royal Astronomical Society,336, 249 – 258

    Google Scholar 

  213. Breger M., Lenz P., Antoci V., Guggenberger E., Shobbrook R. R., Handler G., Ngwato B., Rodler F., Rodriguez E., López De Coca P., Rolland A., Costa V. (2005). “Detection of 75+ pulsation frequencies in the δ Scuti star FG Virginis”, Astronomy and Astrophysics,435, 955 – 965

    Google Scholar 

  214. Bresolin F., Crowther P., Puls J. (Eds) (2008). Proc. IAU Symposium 250: Massive Stars as Cosmic Engines, Cambrigde University Press

    Google Scholar 

  215. Brewer E. C. (1894). Dictionary of Phrase and Fable

    Google Scholar 

  216. Brickhill A. J. (1983). “The pulsations of ZZ Ceti stars”, Monthly Notices of the Royal Astronomical Society,204, 537 – 556

    Google Scholar 

  217. Brickhill A. J. (1990). “The Pulsations of Zz-Ceti Stars - Part Two - Turbulent Convection and the Maximum Period”, Monthly Notices of the Royal Astronomical Society,246, 510 – 517

    Google Scholar 

  218. Brickhill A. J., 1991a, “The pulsations of ZZ Ceti stars. III - The driving mechanism”, Monthly Notices of the Royal Astronomical Society,251, 673 – 680

    Google Scholar 

  219. Brickhill A. J., 1991b, “The pulsations of ZZ Ceti stars. IV - The instability strip”, Monthly Notices of the Royal Astronomical Society,252, 334 – 341

    Google Scholar 

  220. Brickhill A. J., 1992a, “The pulsations of ZZ Ceti stars. V - The light curves. VI - The amplitude spectra”, Monthly Notices of the Royal Astronomical Society,259, 519 – 528

    Google Scholar 

  221. Brickhill A. J., 1992b, “The Pulsations of ZZ Ceti Stars - VI. The Amplitude Spectra”, Monthly Notices of the Royal Astronomical Society,259, 529 – 535

    Google Scholar 

  222. Briquet M., Aerts C. (2003). “A new version of the moment method, optimized for mode identification in multiperiodic stars”, Astronomy and Astrophysics,398, 687 – 696

    Google Scholar 

  223. Briquet M., Aerts C., Lüftinger T., De Cat P., Piskunov N. E., Scuflaire R. (2004). “He and Si surface inhomogeneities of four Bp variable stars”, Astronomy and Astrophysics,413, 273 – 283

    Google Scholar 

  224. Briquet M., Lefever K., Uytterhoeven K., Aerts C. (2005). “An asteroseismic study of the β Cephei star θ Ophiuchi: spectroscopic results”, Monthly Notices of the Royal Astronomical Society,362, 619 – 625

    Google Scholar 

  225. Briquet M., Morel T., Thoul A., Scuflaire R., Miglio A., Montalbán J., Dupret M.-A., Aerts C. (2007). “An asteroseismic study of the β Cephei star θ Ophiuchi: constraints on global stellar parameters and core overshooting”, Monthly Notices of the Royal Astronomical Society,381, 1482 – 1488

    Google Scholar 

  226. Brodskiǐ M. A., Levshin A. (1977). “Asimptoticheskiy metod opredeleniya skorostnogo razreza Zemli po chastotam yeye sobstvennykh kolebaniy”, Dodl. Akad. Nauk. SSSR,233, 312 – 315 (English translation: “Asymptotic method of determining the velocity profile of the Earth from its natural oscillation frequencies”)

    Google Scholar 

  227. Brodsky M. A., Vorontsov S. V. (1987). “An asymptotic technique for solving the inverse problem of helioseismology”, Pis’ma Astron. Zh.,13, 438 – 443 (English translation: Sov. Astron. Lett.,13, 179 – 181)

    Google Scholar 

  228. Brodsky M. A., Vorontsov S. V. (1988). “On the technique of the inversion of helioseismological data”, Proc. IAU Symposium No 123, Advances in helio- and asteroseismology, Eds J. Christensen-Dalsgaard, S, Frandsen, Reidel, Dordrecht, 137 – 140

    Google Scholar 

  229. Brodsky M. A., Vorontsov S. V. (1993). “Asymptotic theory of intermediate- and high-degree solar acoustic oscillations”, Astrophysical Journal,409, 455 – 464

    Google Scholar 

  230. Brookes J. R., Isaak G. R., van der Raay H. B. (1976). “Observation of free oscillations of the Sun”, Nature,259, 92 – 95

    Google Scholar 

  231. Brookes J. R., Isaak G. R., van der Raay H. B. (1978). “A resonant-scattering solar spectrometer”, Monthly Notices of the Royal Astronomical Society,185, 1 – 17

    Google Scholar 

  232. Brown A. G. A., Verschueren W. (1997). “High S/N Echelle spectroscopy in young stellar groups. II. Rotational velocities of early-type stars in SCO OB2”, Astronomy and Astrophysics,319, 811 – 838

    Google Scholar 

  233. Brown T. M. (1984). “The Fourier tachometer II – An instrument for measuring global solar velocity fields”, In Proc. Conf. on Solar Seismology from Space, Eds R. K. Ulrich, J. Harvey, E. J. Rhodes, J. Toomre, NASA, JPL Publications 84, 157 – 163

    Google Scholar 

  234. Brown T. M. (1985). “Solar rotation as a function of depth and latitude”, Nature,317, 591 – 594

    Google Scholar 

  235. Brown T. M., Christensen-Dalsgaard J. (1998). “Accurate determination of the solar photospheric radius”, Astrophysical Journal,500, L195 – L198

    Google Scholar 

  236. Brown T. M., Gilliland R. L. (1990). “A search for solar-like oscillations in Alpha Centauri A”, Astrophysical Journal,350, 839 – 845

    Google Scholar 

  237. Brown T. M., Gilliland R. L. (1994). “Asteroseismology”, Annual Review of Astronomy and Astrophysics,32, 37 – 82

    Google Scholar 

  238. Brown T. M., Morrow C. A. 1987, “Depth and latitude dependence of solar rotation”, Astrophysical Journal,314, L21 – L26

    Google Scholar 

  239. Brown T. M., Christensen-Dalsgaard J., Dziembowski W. A., Goode P., Gough D. O., Morrow C. A. (1989). “Inferring the Sun’s internal angular velocity from observed p-mode frequency splittings”, Astrophysical Journal,343, 526 – 546

    Google Scholar 

  240. Brown T. M., Gilliland R. L., Noyes R. W., Ramsey L. W. (1991). “Detection of possible p-mode oscillations on Procyon”, Astrophysical Journal,368, 599 – 609

    Google Scholar 

  241. Brown T. M., Christensen-Dalsgaard J., Mihalas B., Gilliland R. L. (1994). “The effectiveness of oscillation frequencies in constraining stellar model parameters”, Astrophysical Journal, 427, 1013 – 1034

    Google Scholar 

  242. Brown T. M., Kennelly E. J., Korzennik S. G., Nisenson P., Noyes R. W., Horner S. D. (1997). “A Radial Velocity Search for p-Mode Pulsations in eta Bootis”, Astrophysical Journal,475, 322 – 327

    Google Scholar 

  243. Brown T. M., Kotak R., Horner S. D., Kennelly E. J., Korzennik S., Nisenson P., Noyes R. W., 1998a, “A Search for Line Shape and Depth Variations in 51 Pegasi and τ Bootis”, Astrophysical Journal,494, L85 – L89

    Google Scholar 

  244. Brown T. M., Kotak R., Horner S. D., Kennelly E. J., Korzennik S., Nisenson P., Noyes R. W., 1998b, “Exoplanets or Dynamic Atmospheres? The Radial Velocity and Line Shape Variations of 51 Pegasi and τ Bootis”, Astrophysical Journal Supplement Series,117, 563 – 585

    Google Scholar 

  245. Brun A. S., Turck-Chièze S., Zahn J. P. (1999). “Standard solar models in the light of new helioseismic constraints. II. Mixing below the convection zone”, Astrophysical Journal,525, 1032 – 1041 (Erratum: Astrophysical Journal,536, 1005)

    Google Scholar 

  246. Bruntt H. (2007). “Asteroseismology with the WIRE satellite”, Communications in Asteroseismology,150, 326 – 332

    Google Scholar 

  247. Bruntt H., Southworth J. (2007). “Eclipsing Binary Stars from Space”, In Proc. IAU Symposium 240: Binary Stars as Critical Tools & Tests in Contemporary Astrophysics, Eds W.I. Hartkopf, E.F. Guinan, P. Harmanec, Cambridge University Press, 240, 624 – 627

    Google Scholar 

  248. Bruntt H., Frandsen S., Gilliland R. L., Christensen-Dalsgaard J., Petersen J. O., Guhathakurta P., Edmonds P. D., Bono G. (2001). “SX Phœnicis stars in the core of 47 Tucanae”, Astronomy and Astrophysics,371, 614 – 625

    Google Scholar 

  249. Bruntt H., Kjeldsen H., Buzasi D. L., Bedding T. R. (2005). “Evidence for Granulation and Oscillations in Procyon from Photometry with the WIRE Satellite”, Astrophysical Journal,633, 440 – 446

    Google Scholar 

  250. Bruntt H., Stello D., Suárez J. C., Arentoft T., Bedding T. R., Bouzid M. Y., Csubry Z., Dall T. H., Dind Z. E., Frandsen S., Gilliland R. L., Jacob A. P., Jensen H. R., Kang Y. B., Kim S.-L., Kiss L. L., Kjeldsen H., Koo J.-R., Lee J.-A., Lee C.-U., Nuspl J., Sterken C., Szabó R. (2007). “Multisite campaign on the open cluster M67 - III. δ Scuti pulsations in the blue stragglers”, Monthly Notices of the Royal Astronomical Society,378, 1371 – 1384

    Google Scholar 

  251. Bruntt H., De Cat P., Aerts C. (2008). “A spectroscopic study of southern (candidate) γ Doradus stars. II. Detailed abundance analysis and fundamental parameters”, Astronomy and Astrophysics,478, 487 – 496

    Google Scholar 

  252. Buccino A. P., Mauas P. J. D. (2008). “Mg II emission lines as stellar activity indicators of main sequence F-K stars”, Astronomy and Astrophysics, 483, 903 – 910

    Google Scholar 

  253. Buchler J. R., Goupil M.-J., Hansen C. J. (1997). “On the role of resonances in nonradial pulsators”, Astronomy and Astrophysics,321, 159 – 176

    Google Scholar 

  254. Burgers J. M. (1969). Flow equations for composite gases, Academic Press, New York

    Google Scholar 

  255. Burke E. W., Jr., Rolland W. W., Boy W. R. (1970). “A Photoelectric Study of Magnetic Variable Stars”, Journal of the Royal Astronomical Society of Canada,64, 353 – 369

    Google Scholar 

  256. Burki G. (1978). “The semi-period-luminosity-color relation for supergiant stars”, Astronomy and Astrophysics,65, 357 – 362

    Google Scholar 

  257. Burki G., Maeder A., Rufener F. (1978). “Variable stars of small amplitude. III - Semi-period of variation for seven B2 to G0 supergiant stars”, Astronomy and Astrophysics,65, 363 – 367

    Google Scholar 

  258. Burki G., Barblan F., Carrier F. (2005). “Physical parameters of the Algol system VW Hydrae from simultaneous analysis of GENEVA seven-colour light curves”, New Astronomy,11, 197 – 206

    Google Scholar 

  259. Burrows A., Hayes J., Fryxell B. A. (1995). “On the Nature of Core-Collapse Supernova Explosions”, Astrophysical Journal,450, 830 – 864

    Google Scholar 

  260. Burrows A., Walder R., Ott C. D., Livne E. (2005). “Rotating Core Collapse and Bipolar Supernova Explosions”, In The Fate of the Most Massive Stars, Eds R. Humphreys, K. Stanek, Astronomical Society of the Pacific Conference Series, San Francisco, 332, 358

    Google Scholar 

  261. Buta R. J., Smith M. A. (1979). “The light variations of nonradial pulsators - Theory and application to the line profile variable 53 Persei”, Astrophysical Journal,232, 213 – 235

    Google Scholar 

  262. Butler R. P., Bedding T. R., Kjeldsen H., McCarthy C., O’Toole S. J., Tinney C. G., Marcy G. W., Wright J. T. (2004). “Ultra-High-Precision Velocity Measurements of Oscillations in α Centauri A”, Astrophysical Journal,600, L75 – L78

    Google Scholar 

  263. Buzasi D. (2000). “Platforms of opportunity: asteroseismology by Piggyback”, In Stellar Clusters and Associations: Convection, Rotation, and Dynamos, Eds R. Pallavicini, G. Micela, S. Sciortino, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 198, 557 – 560

    Google Scholar 

  264. Buzasi D. L. (2004). “The performance of a high-precision photometry mission in space”, In Stellar Structure and Habitable Planet Finding, Eds F. Favata, S. Aigrain and A. Wilson, Noordwijk: ESA Publications Division, 538, 205 – 213

    Google Scholar 

  265. Buzasi D., Catanzarite J., Laher R., Conrow T., Shupe D., Gautier T. N., III, Kreidl T., Everett D. (2000). “The Detection of Multimodal Oscillations on α Ursae Majoris”, Astrophysical Journal,532, L133 – L136

    Google Scholar 

  266. Buzasi D. L., Bruntt H., Bedding T. R., Retter A., Kjeldsen H., Preston H. L., Mandeville W. J., Suarez J. C., Catanzarite J., Conrow T., Laher R. (2005). “Altair: The Brightest δ Scuti Star”, Astrophysical Journal,619, 1072 – 1076

    Google Scholar 

  267. Cacciani A., Fofi M. (1978). “The magneto-optical filter. II. Velocity field measurements”, Solar Physics,59, 179 – 189

    Google Scholar 

  268. Caffau E., Ludwig H.-G., Steffen M., Ayres T. R., Bonifacio P., Cayrel R., Freytag B., Plez B. (2008). “The photospheric solar oxygen project. I. Abundance analysis of atomic lines and influence of atmospheric models”, Astronomy and Astrophysics,488, 1031 – 1046

    Google Scholar 

  269. Caffau E., Maiorca E., Bonifacio P., Faraggiana R., Steffen M., Ludwig H.-G., Kamp I., Busso M. (2009). “The solar photospheric nitrogen abundance. Analysis of atomic transitions with 3D and 1D model atmospheres”, Astronomy and Astrophysics,498, 877 – 884

    Google Scholar 

  270. Campos A. J., Smith M. A., 1980a, “Pulsational mode-typing in line profile variables. II - rho Puppis and delta Scuti”, Astrophysical Journal,238, 667 – 673

    Google Scholar 

  271. Campos A. J., Smith M. A., 1980b, “Pulsational mode-typing in line profile variables. I - Four Beta Cephei stars”, Astrophysical Journal,238, 250 – 265

    Google Scholar 

  272. Canuto V. M., Mazzitelli I. (1991). “Stellar turbulent convection: a new model and applications”, Astrophysical Journal, 370, 295 – 311

    Google Scholar 

  273. Canuto V. M., Mazzitelli I. (1992). “Further improvements of a new model for turbulent convection in stars”, Astrophysical Journal, 389, 724 – 730

    Google Scholar 

  274. Carrier F., Bourban G. (2003). “Solar-like oscillations in the K1 dwarf star alpha Cen B”, Astronomy and Astrophysics,406, L23 – L26

    Google Scholar 

  275. Carrier F., Eggenberger P. (2006). “Asteroseismology of the visual binary 70 Ophiuchi”, Astronomy and Astrophysics,450, 695 – 699

    Google Scholar 

  276. Carrier F., Bouchy F., Kienzle F., Bedding T. R., Kjeldsen H., Butler R. P., Baldry I. K., O’Toole S. J., Tinney C. G., Marcy G. W. (2001). “Solar-like oscillations in β Hydri: Confirmation of a stellar origin for the excess power”, Astronomy and Astrophysics,378, 142 – 145

    Google Scholar 

  277. Carrier F., Eggenberger P., Bouchy F. (2005). “New seismological results on the G0 IV η Bootis”, Astronomy and Astrophysics,434, 1085 – 1095

    Google Scholar 

  278. Carrier F., Eggenberger P., Leyder J.-C., Debernardi Y., Royer F. (2007). “A search for solar-like oscillations in the Am star HD 209625”, Astronomy and Astrophysics,470, 1009 – 1012

    Google Scholar 

  279. Carrier F., Kjeldsen H., Bedding T. R., Brewer B. J., Butler R. P., Eggenberger P., Grundahl F., McCarthy C., Retter A., Tinney C. G. (2007). “Solar-like oscillations in the metal-poor subgiant ν Indi. II. Acoustic spectrum and mode lifetime”, Astronomy and Astrophysics,470, 1059 – 1063

    Google Scholar 

  280. Carroll B. W., Hansen C. J. (1982). “The nonadiabatic analysis of nonradial modes of stellar oscillation in the presence of slow rotation”, Astrophysical Journal,263, 352 – 365

    Google Scholar 

  281. Cassisi S., Salaris M., Bono G. (2002). “The shape of the red giant branch bump as a diagnostic of partial mixing processes in low-mass stars”, Astrophysical Journal,565, 1231 – 1238

    Google Scholar 

  282. Cassisi S., Potekhin A. Y., Pietrinferni A., Catelan M., Salaris M. (2007). “Updated electron-conduction opacities: the impact on low-mass stellar models”, Astrophysical Journal,661, 1094 – 1104

    Google Scholar 

  283. Castanheira B. G., Nitta A., Kepler S. O., Winget D. E., Koester D. (2005). “HST observations of the pulsating white dwarf GD 358”, Astronomy and Astrophysics,432, 175 – 179

    Google Scholar 

  284. Castanheira B. G., Kepler S. O., Mullally F., Winget D. E., Koester D., Voss B., Kleinman S. J., Nitta A., Eisenstein D. J., Napiwotzki R., Reimers D. (2006). “Discovery of eleven new ZZ Ceti stars”, Astronomy and Astrophysics,450, 227 – 231

    Google Scholar 

  285. Catala C. (2003). “δ Scuti Pulsations in Pre-main Sequence Stars”, Astrophysics and Space Science,284, 53 – 60

    Google Scholar 

  286. Catelan M. (2007). “Structure and Evolution of Low-Mass Stars: An Overview and Some Open Problems”, Graduate School in Astronomy: XI Special Courses at the National Observatory of Rio de Janeiro (XI CCE),930, 39 – 90

    Google Scholar 

  287. Chaboyer B., Zahn J.-P. (1992). “Effect of horizontal turbulent diffusion on transport by meridional circulation”, Astronomy and Astrophysics,253, 173 – 177

    Google Scholar 

  288. Chadid M., Kolenberg K., Aerts C., Gillet D. (1999). “First detection of a frequency multiplet in the line-profile variations of RR Lyrae: towards an understanding of the Blazhko effect”, Astronomy and Astrophysics,352, 201 – 210

    Google Scholar 

  289. Chadid M., De Ridder J., Aerts C., Mathias P. (2001). “20 CVn: A monoperiodic radially pulsating delta Scuti star”, Astronomy and Astrophysics,375, 113 – 121

    Google Scholar 

  290. Chadid M., Wade G. A., Shorlin S. L. S., Landstreet J. D. (2004). “No evidence of a strong magnetic field in the Blazhko star RR Lyrae”, Astronomy and Astrophysics,413, 1087 – 1093

    Google Scholar 

  291. Chandrasekhar S. (1964). “A general Variational Principle Governing the Radial and the Non-radial Oscillations of Gaseous Masses”, Astrophysical Journal, 139, 664 – 674

    Google Scholar 

  292. Chang H.-Y., Gough D. O. (1998). “On the power distribution of solar p modes”, Solar Physics,181, 251 – 263

    Google Scholar 

  293. Chaplin W. J. (2006). Music of the Sun. The story of helioseismology, Oneworld Publications, Oxford

    Google Scholar 

  294. Chaplin W. J., Appourchaux T. (1999). “Depth of excitation and reversal of asymmetry of low- solar p modes: a complementary analysis of BiSON and VIRGO/SPM data”, Monthly Notices of the Royal Astronomical Society,309, 761 – 768

    Google Scholar 

  295. Chaplin W. J., Basu S. (2008). “Perspectives in global helioseismology, and the road ahead”, Solar Physics,251, 53 – 75

    Google Scholar 

  296. Chaplin W. J., Elsworth Y., Howe R., Isaak G. R., McLeod C. P., Miller B. A., van der Raay H. B., Wheeler S. J., New R. (1996). “BiSON performance”, Solar Physics,168, 1 – 18

    Google Scholar 

  297. Chaplin W. J., Elsworth Y., Howe R., Isaak G. R., McLeod C. P., Miller B. A., New R. (1997). “The observation and simulation of stochastically excited solar p modes”, Monthly Notices of the Royal Astronomical Society,287, 51 – 56

    Google Scholar 

  298. Chaplin W. J., Christensen-Dalsgaard J., Elsworth Y., Howe R., Isaak G. R., Larsen R. M., New R., Schou J., Thompson M. J., Tomczyk S. (1999). “Rotation of the solar core from BiSON and LOWL frequency observations”, Monthly Notices of the Royal Astronomical Society,308, 405 – 414

    Google Scholar 

  299. Chaplin W. J., Elsworth Y., Isaak G. R., Marchenkov K. I., Miller B. A., New R., 2001a, “Rigid rotation of the solar core? On the reliable extraction of low- rotational p-mode splittings from full-disc observations of the Sun”, Monthly Notices of the Royal Astronomical Society,327, 1127 – 1136

    Google Scholar 

  300. Chaplin W. J., Elsworth Y., Isaak G. R., Marchenkov K. I., Miller B. A., New R., 2001b, “Changes to low- solar p-mode frequencies over the solar cycle: correlations on different time-scales”, Monthly Notices of the Royal Astronomical Society,322, 22 – 30

    Google Scholar 

  301. Chaplin W. J., Elsworth Y., Isaak G. R., Marchenkov K. I., Miller B. A., New R., Pinter B., Appourchaux T., 2002a, “Peak finding at low signal-to-noise: low- solar acoustic eigenmodes at n ≤ 9 from the analysis of BiSON data”, Monthly Notices of the Royal Astronomical Society,336, 979 – 991

    Google Scholar 

  302. Chaplin W. J., Elsworth Y., Isaak G. R., Miller B. A., New R., 2002b, “On the measurement precision of solar p-mode eigenfrequencies”, Monthly Notices of the Royal Astronomical Society,330, 731 – 736

    Google Scholar 

  303. Chaplin W. J., Sekii T., Elsworth Y., Gough D. O., 2004a, “On the detectability of a rotation-rate gradient in the solar core”, Monthly Notices of the Royal Astronomical Society,355, 535 – 542

    Google Scholar 

  304. Chaplin W. J., Elsworth Y., Isaak G. R., Miller B. A., New R., 2004b, “The solar cycle as seen by low- p-mode frequencies: comparison with global and decomposed activity proxies”, Monthly Notices of the Royal Astronomical Society, 352, 1102 – 1108

    Google Scholar 

  305. Chaplin W. J., Houdek G., Elsworth Y., Gough D. O., Isaak G. R., New R. (2005). “On model predictions of the power spectral density of radial solar p modes”, Monthly Notices of the Royal Astronomical Society,360, 859 – 868

    Google Scholar 

  306. Chaplin W. J., Appourchaux T., Baudin F., Boumier P., Elsworth Y., Fletcher S. T., Fossat E., García R. A., Isaak G. R., Jiménez A., Jiménez-Reyes S. J., Lazrek M., Leibacher J. W., Lochard J., New R., Pallé P., Régulo C., Salabert D., Seghouani N., Toutain T., Wachter R. (2006). “Solar FLAG hare and hounds: on the extraction of rotational p-mode splittings from seismic, Sun-as-a-star data”, Monthly Notices of the Royal Astronomical Society, 369, 985 – 996

    Google Scholar 

  307. Chaplin W. J., Elsworth Y., Miller B. A., Verner G. A., 2007a, “Solar p-mode frequencies over three solar cycles”, Astrophysical Journal,659, 1749 – 1760

    Google Scholar 

  308. Chaplin W. J., Serenelli A. M., Basu S., Elsworth Y., New R., Verner G. A., 2007b, “Solar heavy-element abundance: constraints from frequency separation ratios of low-degree p-modes”, Astrophysical Journal,670, 872 – 884

    Google Scholar 

  309. Chaplin W. J., Appourchaux T., Arentoft T., Ballot J., Christensen-Dalsgaard J., Creevey O. L., Elsworth Y., Fletcher S. T., García R. A., Houdek G., Jiménez-Reyes S. J., Kjeldsen H., New R., Régulo C., Salabert D., Sekii T., Sousa S. G., Toutain T., and the rest of the asteroFLAG group, 2008a, “AsteroFLAG: First results from hare-and-hound Exercise #1”, Astron. Nach., 329, 549 – 557

    Google Scholar 

  310. Chaplin W. J., Houdek G., Appourchaux T., Elsworth Y., New R., Toutain T., 2008b, “Challenges for asteroseismic analysis of Sun-like stars”, Astronomy and Astrophysics, 485, 813 – 822

    Google Scholar 

  311. Chaplin W. J., Houdek G., Elsworth Y., New R., Bedding T. R., Kjeldsen H. (2009). “Excitation and damping of p-mode oscillations of α Cen B”, Astrophysical Journal, 692, 531 – 537

    Google Scholar 

  312. Charbonneau P. (2005). “Dynamo models of the solar cycle”, Living Reviews in Solar Physics,2, 2. URL (cited on 17/6/05): http://www.livingreviews.org/lrsp-2005-2

    Google Scholar 

  313. Charbonneau P., MacGregor K. B. (1993). “Angular momentum transport in magnetized stellar radiative zones. II. The solar spin-down”, Astrophysical Journal,417, 762 – 780

    Google Scholar 

  314. Charbonneau P., Christensen-Dalsgaard J., Henning R., Larsen R. M., Schou J., Thompson M. J., Tomczyk S. (1999). “Helioseismic constraints on the structure of the solar tachocline”, Astrophysical Journal,527, 445 – 460

    Google Scholar 

  315. Charbonnel C., Talon S. (2005). “Influence of gravity waves on the internal rotation and Li abundance of solar-type stars”, Science,309, 2189 – 2191

    Google Scholar 

  316. Charpinet S., Fontaine G., Brassard P., Dorman B. (1996). “The Potential of Asteroseismology for Hot, Subdwarf B Stars: A New Class of Pulsating Stars?”, Astrophysical Journal,471, L103 – L107

    Google Scholar 

  317. Charpinet S., Fontaine G., Brassard P., Chayer P., Rogers F. J., Iglesias C. A., Dorman B. (1997). “A Driving Mechanism for the Newly Discovered Class of Pulsating Subdwarf B Stars”, Astrophysical Journal,483, L123 – L127

    Google Scholar 

  318. Charpinet S., Silvotti R., Bonanno A., Fontaine G., Brassard P., Chayer P., Green E. M., Bergeron P., Bernabei S., Leccia S., Kjeldsen H., Janulis R., Frasca A., Østensen R., Kim S.-L., Park B.-G., Jiang X., Reed M. D., Patterson R. S., Gietzen K. M., Clark P. J., Wolf G. W., Lipkin Y., Formiggini L., Leibowitz E., Oswalt T. D., Rudkin M., Johnston K. (2006). “The rapidly pulsating subdwarf B star PG 1325+101. II. Structural parameters from asteroseismology”, Astronomy and Astrophysics,459, 565 – 576

    Google Scholar 

  319. Charpinet S., Van Grootel V., Reese D., Fontaine G., Green, E., Brassard P., Chayer P. (2008). “Testing the forward modelling approach in asteroseismology. II. Structure and internal dynamics of the hot B subdwarf component in the close eclipsing binary system PG 1336-018”, Astronomy and Astrophysics,489, 377 – 394

    Google Scholar 

  320. Chiosi C., Maeder A. (1986). “The evolution of massive stars with mass loss”, Annual Review of Astronomy and Astrophysics,24, 329 – 375

    Google Scholar 

  321. Chitre S. M., Christensen-Dalsgaard J., Thompson M. J. (1998). “Diagnostic potential of the solar f modes”, In Structure and dynamics of the interior of the Sun and Sun-like stars; Proc. SOHO 6/GONG 98 Workshop, Eds S. G. Korzennik, A. Wilson, ESA SP-418, ESA Publications Division, Noordwijk, The Netherlands, 141 – 145

    Google Scholar 

  322. Chlebowski T. (1978). “Nonradial oscillations of slowly rotating white dwarfs”, Acta Astronomica,28, 441 – 463

    Google Scholar 

  323. Chou D.-Y., Sun M.-T., Huang T.-Y., Jiménez A., Lai S.-P., Chi P.-J., Ou K.-T., Wang C.-C., Lu J.-Y., Chu A.-L., Niu C.-S., Mu T.-M., Chen K.-R., Chou Y.-P., Chao H., Rabello-Soares M. C., Ai. G., Wang G.-P., Zirin H., Marquette W., Nenow J. (1995). “Taiwan Oscillation Network”, Solar Physics,160, 237 – 243

    Google Scholar 

  324. Christensen-Dalsgaard J. (1976). “On isolated stars in non-radial oscillation”, Monthly Notices of the Royal Astronomical Society,174, 87 – 90

    Google Scholar 

  325. Christensen-Dalsgaard J. (1978). Solar oscillations, PhD Dissertation, University of Cambridge, UK

    Google Scholar 

  326. Christensen-Dalsgaard J. (1980). “On adiabatic non-radial oscillations with moderate or large l”, Monthly Notices of the Royal Astronomical Society,190, 765 – 791

    Google Scholar 

  327. Christensen-Dalsgaard J. (1981). “The effect of non-adiabaticity on avoided crossings of non-radial stellar oscillations”, Monthly Notices of the Royal Astronomical Society, 194, 229 – 250

    Google Scholar 

  328. Christensen-Dalsgaard J., 1982a, “Seismological studies of the sun and other stars”, Advances in Space Research,2, 11 – 19

    Google Scholar 

  329. Christensen-Dalsgaard J., 1982b, “On solar models and their periods of oscillation”, Monthly Notices of the Royal Astronomical Society, 199, 735 – 761

    Google Scholar 

  330. Christensen-Dalsgaard J., 1984a, “Optimized response functions for two-dimensional observations of solar oscillations”, Proceedings of Conference on Solar Seismology from Space, Eds R. K. Ulrich, J. Harvey, E. J. Rhodes, J. Toomre, NASA, JPL Publications 84, 219 – 253

    Google Scholar 

  331. Christensen-Dalsgaard J., 1984b, “What will asteroseismology teach us?”, Space Research Prospects in Stellar Activity and Variability, Eds A. Mangeney, F. Praderie, Paris Observatory Press, 11 – 45

    Google Scholar 

  332. Christensen-Dalsgaard J. (1988). “A Hertzsprung-Russell diagram for stellar oscillations”, Proc. IAU Symposium No 123, Advances in helio- and asteroseismology, Eds Christensen-Dalsgaard, J., Frandsen, S., Reidel, Dordrecht, 295 – 298

    Google Scholar 

  333. Christensen-Dalsgaard J. (1989). “The effect of rotation on whole-disc Doppler observations of solar oscillations”, Monthly Notices of the Royal Astronomical Society,239, 977 – 994

    Google Scholar 

  334. Christensen-Dalsgaard J., 1991a, “Some aspects of the theory of solar oscillations”, Geophys. Astrophys. Fluid Dynamics,62, 123 – 152

    Google Scholar 

  335. Christensen-Dalsgaard J., 1991b, “Solar oscillations and the physics of the solar interior”, In Challenges to theories of the structure of moderate-mass stars,Lecture Notes in Physics, vol. 388, Eds D. O. Gough, J. Toomre, Springer, Heidelberg, 11 – 36

    Google Scholar 

  336. Christensen-Dalsgaard J., 1993a, “On the Asteroseismic HR Diagram”, In GONG 1992. Seismic Investigation of the Sun and Stars, Astronomical Society of the Pacific Conference Series, San Francisco, 42, 347 – 350

    Google Scholar 

  337. Christensen-Dalsgaard J., 1993b, “Pulsation theory and stellar structure”, In Proc. IAU Colloquium 137: Inside the stars, Eds A. Baglin, W. W. Weiss, Astronomical Society of the Pacific Conference Series, San Francisco, 40, 483 – 496

    Google Scholar 

  338. Christensen-Dalsgaard J. (1996). “Testing a solar model: the forward problem”, In Proc. VI IAC Winter School “The structure of the Sun”, Eds T. Roca Cortés, F. Sánchez, Cambridge University Press, 47 – 139

    Google Scholar 

  339. Christensen-Dalsgaard J. (2000). “An introduction to the theory of δ Scuti stars”, In Delta Scuti and related stars, Eds M. Breger, M. H. Montgomery, Astronomical Society of the Pacific Conference Series, San Francisco, 210, 187 – 214

    Google Scholar 

  340. Christensen-Dalsgaard J. (2002). “Helioseismology”, Reviews of Modern Physics,74, 1073 – 1129

    Google Scholar 

  341. Christensen-Dalsgaard J., 2004a, “An overview of helio- and asteroseismology”, In Proc. SOHO 14 - GONG 2004: Helio- and Asteroseismology: Towards a golden future, Ed. D. Danesy, ESA SP-559, ESA Publication Division, Noordwijk, The Netherlands, 1 – 33

    Google Scholar 

  342. Christensen-Dalsgaard J., 2004b, “Physics of solar-like oscillations”, Solar Physics,220, 137 – 168

    Google Scholar 

  343. Christensen-Dalsgaard J., 2008a, “ASTEC – the Aarhus STellar Evolution Code”, Astrophysics and Space Science,316, 13 – 24

    Google Scholar 

  344. Christensen-Dalsgaard J., 2008b, “ADIPLS – the Aarhus adiabatic pulsation package”, Astrophysics and Space Science, 316, 113 – 120

    Google Scholar 

  345. Christensen-Dalsgaard J. (2009). “The Sun as a fundamental calibrator of stellar evolution”, In Proc. IAU Symp. 258, The Ages of Stars, Eds E. E. Mamajek, D. R. Soderblom, R. F. G. Wyse, IAU and Cambridge University Press, in press[arXiv:0904.0358v1 [astro-ph.SR]]

    Google Scholar 

  346. Christensen-Dalsgaard J., Däppen W. (1992). “Solar oscillations and the equation of state”, Astronomy and Astrophysics Review,4, 267 – 361

    Google Scholar 

  347. Christensen-Dalsgaard J., Di Mauro M. P. (2007). “Diffusion and helioseismology”, In Stellar Evolution and Seismic Tools for Asteroseismology: Diffusive Processes in Stars and Seismic Analysis, Eds C. W. Straka, Y. Lebreton, M. J. P. F. G. Monteiro, European Astronomical Society Publication Series, EDP Sciences, Les Ulis, France, 26, 3 – 16

    Google Scholar 

  348. Christensen-Dalsgaard J., Dziembowski W. A. (2000). “Basic aspects of stellar structure and pulsation”, In Variable Stars as Essential Astrophysical Tools, Ed. C. İbanoğlu, Kluwer Academic Publishers, 1 – 57

    Google Scholar 

  349. Christensen-Dalsgaard J., Frandsen S., 1983a, “Stellar 5 min oscillations”, Solar Physics,82, 469 – 486

    Google Scholar 

  350. Christensen-Dalsgaard J., Frandsen S., 1983b, “Radiative transfer and solar oscillations”, Solar Physics,82, 165 – 204

    Google Scholar 

  351. Christensen-Dalsgaard J., Gough D. O. (1976). “Towards a heliological inverse problem”, Nature,259, 89 – 92

    Google Scholar 

  352. Christensen-Dalsgaard J., Gough D. O. (1980). “Is the Sun helium-deficient?”, Nature, 288, 544 – 547

    Google Scholar 

  353. Christensen-Dalsgaard J., Gough D. O. (1981). “Comparison of observed solar whole-disk oscillation frequencies with the predictions of a sequence of solar models”, Astronomy and Astrophysics,104, 173 – 176

    Google Scholar 

  354. Christensen-Dalsgaard J., Gough D. O. (1982). “On the interpretation of five-minute oscillations in solar spectrum line shifts”, Monthly Notices of the Royal Astronomical Society,198, 141 – 171

    Google Scholar 

  355. Christensen-Dalsgaard J., Gough D. O. (2001). “On the dipolar f mode of stellar oscillation”, Monthly Notices of the Royal Astronomical Society, 326, 1115 – 1121

    Google Scholar 

  356. Christensen-Dalsgaard J., Mullan D. J. (1994). “Accurate frequencies of polytropic models”, Monthly Notices of the Royal Astronomical Society, 270, 921 – 935

    Google Scholar 

  357. Christensen-Dalsgaard J., Pérez Hernández F. (1991). “Influence of the upper layers of the Sun on the p-mode frequencies”, In Challenges to theories of the structure of moderate-mass stars,Lecture Notes in Physics, vol. 388, 43 – 50, Eds D. O. Gough, J. Toomre, Springer, Heidelberg

    Google Scholar 

  358. Christensen-Dalsgaard J., Pérez Hernández F. (1992). “Phase-function differences for stellar acoustic oscillations – I. Theory”, Monthly Notices of the Royal Astronomical Society,257, 62 – 88

    Google Scholar 

  359. Christensen-Dalsgaard J., Petersen J. O. (1995). “Pulsation models of the double-mode Cepheids in the Large Magellanic Cloud”, Astronomy and Astrophysics,299, L17 – 21

    Google Scholar 

  360. Christensen-Dalsgaard J., Schou J. (1988). “Differential rotation in the solar interior”, Seismology of the Sun, Sun-like Stars, 149 – 153, Eds V. Domingo, E. J. Rolfe, ESA SP-286, ESA Publications Division, Noordwijk, The Netherlands

    Google Scholar 

  361. Christensen-Dalsgaard J., Thompson M. J. (1993). “A preprocessing strategy for helioseismic inversions”, Astronomy and Astrophysics,272, L1 – L4

    Google Scholar 

  362. Christensen-Dalsgaard J., Thompson M. J. (1997). “On solar p-mode frequency shifts caused by near-surface model changes”, Monthly Notices of the Royal Astronomical Society,284, 527 – 540

    Google Scholar 

  363. Christensen-Dalsgaard J., Thompson M. J. (2007). “Observational results and issues concerning the tachocline”, In The solar tachocline, Eds D. W. Hughes, R. Rosner, N. O. Weiss, Cambridge University Press, 53 – 85

    Google Scholar 

  364. Christensen-Dalsgaard J., Dilke F. W. W., Gough D. O. (1974). “The stability of a solar model to non-radial oscillations”, Monthly Notices of the Royal Astronomical Society,169, 429 – 445

    Google Scholar 

  365. Christensen-Dalsgaard J., Dziembowski W., Gough D. O. (1980). “How deep is the solar convection zone?”, Lecture Notes in Physics, 125, Eds W. Dziembowski, H. A. Hill, Springer, Heidelberg, 313 – 341

    Google Scholar 

  366. Christensen-Dalsgaard J., Duvall T. L., Gough D. O., Harvey J. W., Rhodes Jr E. J. (1985). “Speed of sound in the solar interior”, Nature,315, 378 – 382

    Google Scholar 

  367. Christensen-Dalsgaard J., Gough D. O., Pérez Hernández F., 1988a, “Stellar disharmony”, Monthly Notices of the Royal Astronomical Society,235, 875 – 880

    Google Scholar 

  368. Christensen-Dalsgaard J., Gough D. O., Thompson M. J., 1988b, “Determination of the solar internal sound speed by means of a differential asymptotic inversion” Seismology of the Sun, Sun-like Stars, Eds V. Domingo, E. J. Rolfe, ESA SP-286, ESA Publications Division, Noordwijk, The Netherlands, 493 – 497

    Google Scholar 

  369. Christensen-Dalsgaard J., Däppen W., Lebreton Y., 1988c, “Solar oscillation frequencies and the equation of state”, Nature,336, 634 – 638

    Google Scholar 

  370. Christensen-Dalsgaard J., Gough D. O., Libbrecht K. G., 1989a, “Seismology of solar oscillation line widths”, Astrophysical Journal,341, L103 – L106

    Google Scholar 

  371. Christensen-Dalsgaard J., Gough D. O., Thompson M. J., 1989b, “Differential asymptotic sound-speed inversions”, Monthly Notices of the Royal Astronomical Society,238, 481 – 502

    Google Scholar 

  372. Christensen-Dalsgaard J., Schou J., Thompson M. J. (1990). “A comparison of methods for inverting helioseismic data”, Monthly Notices of the Royal Astronomical Society,242, 353 – 369

    Google Scholar 

  373. Christensen-Dalsgaard J., Gough D. O., Thompson M. J. (1991). “The depth of the solar convection zone”, Astrophysical Journal,378, 413 – 437

    Google Scholar 

  374. Christensen-Dalsgaard J., Proffitt C. R., Thompson M. J., 1993a, “Effects of diffusion on solar models and their oscillation frequencies”, Astrophysical Journal,403, L75 – L78

    Google Scholar 

  375. Christensen-Dalsgaard J., Hansen P. C., Thompson M. J., 1993b, “Generalized singular value decomposition analysis of helioseismic inversions”, Monthly Notices of the Royal Astronomical Society,264, 541 – 564

    Google Scholar 

  376. Christensen-Dalsgaard J., Monteiro M. J. P. F. G., Thompson M. J., 1995a, “Helioseismic estimation of convective overshoot in the Sun”, Monthly Notices of the Royal Astronomical Society,276, 283 – 292

    Google Scholar 

  377. Christensen-Dalsgaard, J., Bedding, T. R., Kjeldsen, H., 1995b, “Modelling solar-like oscillations in η Bootis”, Astrophysical Journal, 443, L29 – L32

    Google Scholar 

  378. Christensen-Dalsgaard J., Däppen W., Ajukov S. V., Anderson E. R., Antia H. M., Basu S., Baturin V. A., Berthomieu G., Chaboyer B., Chitre S. M., Cox A. N., Demarque P., Donatowicz J., Dziembowski W. A., Gabriel M., Gough D. O., Guenther D. B., Guzik J. A., Harvey J. W., Hill F., Houdek G., Iglesias C. A., Kosovichev A. G., Leibacher J. W., Morel P., Proffitt C. R., Provost J., Reiter J., Rhodes Jr. E. J., Rogers F. J., Roxburgh I. W., Thompson M. J., Ulrich R. K. (1996). “The current state of solar modeling”, Science,272, 1286 – 1292

    Google Scholar 

  379. Christensen-Dalsgaard J., Kjeldsen H., Mattei J. A. (2001). “Solar-like oscillations of semiregular variables”, Astrophysical Journal,562, L141 – L144

    Google Scholar 

  380. Christensen-Dalsgaard J., Di Mauro M. P., Schlattl H., Weiss A. (2005). “On helioseismic tests of basic physics”, Monthly Notices of the Royal Astronomical Society,356, 587 – 595

    Google Scholar 

  381. Christensen-Dalsgaard J., Di Mauro M. P., Houdek G., Pijpers F. (2009). “On the opacity change required to compensate for the revised solar composition”, Astronomy and Astrophysics,494, 205 – 208

    Google Scholar 

  382. Cioni M.-R. L., Marquette J.-B., Loup C., Azzopardi M., Habing H. J., Lasserre T., Lesquoy E. (2001). “Variability and spectral classification of LMC giants: Results from DENIS and EROS”, Astronomy and Astrophysics,377, 945 – 954

    Google Scholar 

  383. Claret A. (2000). “A new non-linear limb-darkening law for LTE stellar atmosphere models. Calculations for \(-5.0 \leq \log [\mathrm{M/H}] \leq +1\), 2000 K ≤ Teff ≤ 50000 K at several surface gravities”, Astronomy and Astrophysics,363, 1081 – 1190

    Google Scholar 

  384. Claret A. (2003). “A new non-linear limb-darkening law for LTE stellar atmosphere models II K at several surface gravities. Geneva and Walraven systems: Calculations for \(-5.0 \leq \log [\mathrm{M/H}] \leq +1\), 2000 K ≤ Teff ≤ 50, 000 K at several surface gravities”, Astronomy and Astrophysics,401, 657 – 660

    Google Scholar 

  385. Claret A. (2004). “A new non-linear limb-darkening law for LTE stellar atmosphere models III. Sloan filters: Calculations for \(-5.0 \leq \log [\mathrm{M/H}] \leq +1\), 2000 K ≤ Teff ≤ 50000 K at several surface gravities”, Astronomy and Astrophysics,428, 1001 – 1005

    Google Scholar 

  386. Claret A. (2007). “Does convective core overshooting depend on stellar mass? Tests using double-lined eclipsing binaries”, Astronomy and Astrophysics,475, 1019 – 1025

    Google Scholar 

  387. Claret A., Giménez A., Zahn J.-P. (Eds) (2005). Tidal Evolution and Oscillations in Binary Stars, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco

    Google Scholar 

  388. Clarke D. (2002). “String/Rope length methods using the Lafler-Kinman statistic”, Astronomy and Astrophysics,386, 763 – 774

    Google Scholar 

  389. Claverie A., Isaak G. R., McLeod C. P., van der Raay H. B., Roca Cortes T. (1979). “Solar structure from global studies of the 5-minute oscillation”, Nature,282, 591 – 594

    Google Scholar 

  390. Clayton G. C., Kerber F., Pirzkal N., De Marco O., Crowther P. A., Fedrow J. M. (2006). “V605 Aquilae: The Older Twin of Sakurai’s Object”, Astrophysical Journal,646, L69 – L72

    Google Scholar 

  391. Clemens J. C. (1994). The origin and evolution of the white dwarf stars, PhD Dissertation, The University of Texas, Austin, USA

    Google Scholar 

  392. Clemens J. C., Rosen R. (2004). “Observations of Nonradial Pulsations in Radio Pulsars”, Astrophysical Journal,609, 340 – 353

    Google Scholar 

  393. Clemens J. C., Rosen R. (2008). “A Pulsational Model for the Orthogonal Polarization Modes in Radio Pulsars”, Astrophysical Journal,680, 664 – 670

    Google Scholar 

  394. Clemens J. C., van Kerkwijk M. H., Wu Y. (2000). “Mode identification from time-resolved spectroscopy of the pulsating white dwarf G29-38”, Monthly Notices of the Royal Astronomical Society,314, 220 – 228

    Google Scholar 

  395. Collier Cameron A., Hilditch R. W. (1997). “Eclipse mapping of starspots on XY UMa in 1992 and 1995”, Monthly Notices of the Royal Astronomical Society,287, 567 – 574

    Google Scholar 

  396. Condon E. U., Odabasi H. (1980). Atomic structure, Cambridge University Press

    Google Scholar 

  397. Connes P. (1985). “Absolute astronomical accelerometry”, Astrophysics and Space Science,110, 211 – 255

    Google Scholar 

  398. Conti P. S. (1984). “Basic Observational Constraints on the Evolution of Massive Stars”, In IAU Symposium 105: Observational Tests of the Stellar Evolution Theory, Eds A. Maeder, A. Renzini, D. Reidel Publishing Company, Dordrecht, The Netherlands, 105, 233

    Google Scholar 

  399. Cook K., The MACHO Collaboration (1997). “New Results from the MACHO Project: Variable Stars in the LMC, SMC and Bulge”, In Pulsating Stars - Recent Developments in Theory and Observation, 23rd meeting of the IAU, Joint Discussion 24, Kyoto, Japan, 24 (abstract)

    Google Scholar 

  400. Corbard T., Thompson M. J. (2002). “The subsurface radial gradient of solar angular velocity from MDI f-mode observations”, Solar Physics,205, 211 – 229

    Google Scholar 

  401. Corbard T., Blanc-Féraud L., Berthomieu G., Provost J. (1999). “Non linear regularization for helioseismic inversions. Application for the study of the solar tachocline”, Astronomy and Astrophysics,344, 696 – 708

    Google Scholar 

  402. Córsico A. H., Althaus L. G., Montgomery M. H., García-Berro E., 2005a, “The Effects of Crystallization on the Pulsational Properties of Massive ZZ Ceti Stars”, In 14th European Workshop on White Dwarfs, Eds D. Koester, S. Moehler, Astronomical Society of the Pacific Conference Series, San Francisco, 334, 537

    Google Scholar 

  403. Córsico A. H., Althaus L. G., Montgomery M. H., García-Berro E., Isern J., 2005b, “New evolutionary models for massive ZZ Ceti stars. II. The effects of crystallization on their pulsational properties”, Astronomy and Astrophysics,429, 277 – 290

    Google Scholar 

  404. Córsico A. H., Althaus L. G., Miller Bertolami M. M. (2006). “New nonadiabatic pulsation computations on full PG 1159 evolutionary models: the theoretical GW Virginis instability strip revisited”, Astronomy and Astrophysics,458, 259 – 267

    Google Scholar 

  405. Costa J. E. S., Kepler S. O., Winget D. E., O’Brien M. S., Kawaler S. D., Costa A. F. M., Giovannini O., Kanaan A., Mukadam A. S., Mullally F., Nitta A., Provençal J. L., Shipman H., Wood M. A., Ahrens T. J., Grauer A., Kilic M., Bradley P. A., Sekiguchi K., Crowe R., Jiang X. J., Sullivan D., Sullivan T., Rosen R., Clemens J. C., Janulis R., O’Donoghue D., Ogloza W., Baran A., Silvotti R., Marinoni S., Vauclair G., Dolez N., Chevreton M., Dreizler S., Schuh S., Deetjen J., Nagel T., Solheim J.-E., Gonzalez Perez J. M., Ulla A., Barstow M., Burleigh M., Good S., Metcalfe T. S., Kim S.-L., Lee H., Sergeev A., Akan M. C., Çakırlı Ö., Paparo M., Viraghalmy G., Ashoka B. N., Handler G., Hürkal Ö., Johannessen F., Kleinman S. J., Kalytis R., Krzesinski J., Klumpe E., Larrison J., Lawrence T., Meištas E., Martinez P., Nather R. E., Fu J.-N., Pakštienė E., Rosen R., Romero-Colmenero E., Riddle R., Seetha S., Silvestri N. M., Vučković M., Warner B., Zola S., Althaus L. G., Córsico A. H., Montgomery M. H. (2008). “The pulsation modes of the pre-white dwarf PG 1159-035”, Astronomy and Astrophysics,477, 627 – 640

    Google Scholar 

  406. Cousins A. W. J. (1992). “Gamma Doradus”, The Observatory,112, 53 – 56

    Google Scholar 

  407. Cousins A. W. J., Caldwell J. A. R., Menzies J. W. (1989). “The Period of gamma Doradus”, Information Bulletin on Variable Stars,3412, 1 – 1

    Google Scholar 

  408. Couvidat S., Turck-Chièze S., Kosovichev A. G., 2003a, “Solar seismic models and the neutrino predictions”, Astrophysical Journal,599, 1434 – 1448

    Google Scholar 

  409. Couvidat S., García R. A., Turck-Chièze S., Corbard T., Henney C. J., Jiménez-Reyes S., 2003b, “The rotation of the deep solar layers”, Astrophysical Journal,597, L77 – L79

    Google Scholar 

  410. Covas E., Tavakol R., Moss D., Tworkowski A. (2000). “Torsional oscillations in the solar convection zone”, Astronomy and Astrophysics,360, L21 – L24

    Google Scholar 

  411. Covas E., Moss D., Tavakol R. (2004). “The influence of density stratification and multiple nonlinearities on solar torsional oscillations”, Astronomy and Astrophysics,416, 775 – 782

    Google Scholar 

  412. Cowley C. R., Hubrig S., Ryabchikova T. A., Mathys G., Piskunov N., Mittermayer P. (2001). “The core-wing anomaly of cool Ap stars. Abnormal Balmer Profiles”, Astronomy and Astrophysics,367, 939 – 942

    Google Scholar 

  413. Cowley C. R., Hubrig S., Kamp I. (2006). “An Atlas of K-Line Spectra for Cool Magnetic CP Stars: The Wing-Nib Anomaly (WNA)”, Astrophysical Journal Supplement Series,163, 393 – 400

    Google Scholar 

  414. Cowling T. G. (1941). “The non-radial oscillations of polytropic stars”, Monthly Notices of the Royal Astronomical Society,101, 367 – 375

    Google Scholar 

  415. Cowling T. G., Newing R. A. (1949). “The oscillations of a rotating star”, Astrophysical Journal, 109, 149 – 158

    Google Scholar 

  416. Cox A. N. (1980). “The masses of Cepheids”, Annual Review of Astronomy and Astrophysics,18, 15 – 41

    Google Scholar 

  417. Cox A. N., Tabor J. E. (1976). “Radiative opacity tables for 40 stellar mixtures”, Astrophysical Journal Supplement Series,31, 271 – 312

    Google Scholar 

  418. Cox A. N., Guzik J. A. (2004). “Theoretical prediction of an observed solar g-mode”, Astrophysical Journal,613, L169 – L171

    Google Scholar 

  419. Cox A. N., Morgan S. M., Rogers F. J., Iglesias C. A. (1992). “An opacity mechanism for the pulsations of OB stars”, Astrophysical Journal,393, 272 – 277

    Google Scholar 

  420. Cox J. P. (1967). “The linear theory: Initiation of pulsational instability in stars. Summary-introduction”, In IAU Symposium 28: Fifth Symposium on Cosmical Gas Dynamics. Aerodynamic phenomena in stellar atmospheres, Ed. R. N. Thomas, Academic Press, London, 3 – 72

    Google Scholar 

  421. Cox J. P. (1974). “Pulsating stars”, Reports on Progress in Physics,37, 563 – 698

    Google Scholar 

  422. Cox J. P. (1980). Theory of Stellar Pulsation, Princeton University Press

    Google Scholar 

  423. Cox J. P., Giuli R. T. (1968). Principles of Stellar Structure, Gordon and Breach, New York

    Google Scholar 

  424. Cox J. P., Whitney C. (1958). “Stellar pulsation. IV. A semitheoretical period-luminosity relation for classical Cepheids”, Astrophysical Journal,127, 561 – 572

    Google Scholar 

  425. Craig I. J. D., Brown J. C. (1986). Inverse problems in astronomy:a guide to inversion strategies for remotely sensed data, Adam Hilger, Bristol

    Google Scholar 

  426. Creevey O. L., Monteiro M. J. P. F. G., Metcalfe T. S., Brown T. M., Jiménez-Reyes S. J., Belmonte J. A. (2007). “The complementary roles of interferometry and asteroseismology in determining the mass of solar-type stars”, Astrophysical Journal, 659, 616 – 625

    Google Scholar 

  427. Crowe R., Gillet D. (1989). “Shock phenomena in Beta Cephei stars”, Astronomy and Astrophysics,211, 365 – 382

    Google Scholar 

  428. Crowther P. A. (2007). “Physical properties of Wolf-Rayet stars”, Annual Review of Astronomy and Astrophysics,45, 177 – 219

    Google Scholar 

  429. Crowther P. A., Smith L. J. (1997). “Fundamental parameters of Wolf-Rayet stars. VI. Large Magellanic Cloud WNL stars”, Astronomy and Astrophysics,320, 500 – 524

    Google Scholar 

  430. Cugier H., Daszyńska J. (2001). “Spectroscopic nonadiabatic observables in β Cephei models”, Astronomy and Astrophysics,377, 113 – 122

    Google Scholar 

  431. Cugier H., Dziembowski W. A., Pamyatnykh A. A. (1994). “Nonadiabatic observables in beta Cephei models”, Astronomy and Astrophysics,291, 143 – 154

    Google Scholar 

  432. Cunha M. S. (2001). “The sixth frequency of roAp star HR 1217”, Monthly Notices of the Royal Astronomical Society,325, 373 – 378

    Google Scholar 

  433. Cunha M. S. (2005). “Asteroseismic Theory of Rapidly Oscillating Ap Stars”, Journal of Astrophysics and Astronomy,26, 213

    Google Scholar 

  434. Cunha M. S. (2006). “Improved pulsating models of magnetic Ap stars - I. Exploring different magnetic field configurations”, Monthly Notices of the Royal Astronomical Society,365, 153 – 164

    Google Scholar 

  435. Cunha M. S. (2007). “Theory of rapidly oscillating Ap stars”, Communications in Asteroseismology,150, 48 – 54

    Google Scholar 

  436. Cunha M. S., Gough D. (2000). “Magnetic perturbations to the acoustic modes of roAp stars”, Monthly Notices of the Royal Astronomical Society,319, 1020 – 1038

    Google Scholar 

  437. Cunha M. S., Metcalfe T. S. (2007). “Asteroseismic signatures of small convective cores”, Astrophysical Journal, 666, 413 – 422

    Google Scholar 

  438. Cunha M. S., Aerts C., Christensen-Dalsgaard J., Baglin A., Bigot L., Brown T. M., Catala C., Creevey O. L., Domiciano de Souza A., Eggenberger P., Garcia P. J. V., Grundahl F., Kervella P., Kurtz D. W., Mathias P., Miglio A., Monteiro M. J. P. F. G., Perrin G., Pijpers F. P., Pourbaix D., Quirrenbach A., Rousselet-Perraut K., Teixeira T. C., Thévenin F., Thompson M. J. (2007). “Asteroseismology and interferometry”, Astronomy and Astrophysics Review,14, 217 – 360

    Google Scholar 

  439. Cuypers J. (1980). “On the calculation of the frequency splitting of adiabatic nonradial stellar oscillations by slow differential rotation”, Astronomy and Astrophysics, 89, 207 – 208

    Google Scholar 

  440. Cuypers J. (1987). “The Period Analysis of Variable Stars” Academiae Analecta, Royal Academy of Sciences , Belgium, 49, No. 3

    Google Scholar 

  441. Cuypers J., Goossens M. (1981). “Frequency Analysis of Photometric Observations of the Beta-Cephei Star Nu-Eridani”, Astronomy and Astrophysics Supplement Series,45, 487 – 497

    Google Scholar 

  442. Cuypers J., Aerts C., Buzasi D., Catanzarite J., Conrow T., Laher R. (2002). “Multiperiodicity in the light variations of the beta Cephei star beta Crucis”, Astronomy and Astrophysics,392, 599 – 603

    Google Scholar 

  443. Cuypers J., Aerts C., De Cat P., De Ridder J., Goossens K., Schoenaers C., Uytterhoeven K., Acke B., Davignon G., Debosscher J., Decin L., De Meester W., Deroo P., Drummond R., Kolenberg K., Lefever K., Raskin G., Reyniers M., Saesen S., Vandenbussche B., Van Malderen R., Verhoelst T., Van Winckel H., Waelkens C. (2009). “Long-term photometric monitoring with the Mercator telescope. Frequencies and multicolour amplitudes of γ Doradus stars”, Astronomy and Astrophysics,499, 967 – 982

    Google Scholar 

  444. Dall T. H., Santos N. C., Arentoft T., Bedding T. R., Kjeldsen H. (2006). “Bisectors of the cross-correlation function applied to stellar spectra. Discriminating stellar activity, oscillations and planets”, Astronomy and Astrophysics,454, 341 – 348

    Google Scholar 

  445. D’Antona F., Caloi V. (2004). “The early evolution of globular clusters: the case of NGC 2808”, Astrophysical Journal,611, 871 – 880

    Google Scholar 

  446. Däppen W. (2004). “Equations of state for solar and stellar modelling”, In Equation-of-State and Phase-Transition Issues in Models of Ordinary Astrophysical Matter, Eds V. Čelebonović, W. Däppen, D. Gough, AIP Conf. Proc. vol. 731, AIP, Melville, New York, 3 – 17

    Google Scholar 

  447. Däppen W. (2007). “Helioseismology and Plasma Physics”, In Solar and Stellar Physics Through Eclipses, Eds O. Demircan, S. O. Selam, B. Albayrak, Astronomical Society of the Pacific Conference Series, San Francisco, 370, 3 – 12

    Google Scholar 

  448. Däppen W., Gough D. O. (1986). “Progress report on helium abundance determination”, In Seismology of the Sun and the distant Stars, Ed. D. O. Gough, Reidel, Dordrecht, 275 – 280

    Google Scholar 

  449. Däppen W., Gough D. O., Kosovichev A. G., Thompson M. J. (1991). “A new inversion for the hydrostatic stratification of the Sun”, In Challenges to theories of the structure of moderate-mass stars,Lecture Notes in Physics, vol. 388, 111 – 120, Eds D. O. Gough, J. Toomre, Springer, Heidelberg

    Google Scholar 

  450. Daszyńska-Daszkiewicz J., Dziembowski W. A., Pamyatnykh A. A., Goupil M.-J. (2002). “Photometric amplitudes and phases of nonradial oscillation in rotating stars”, Astronomy and Astrophysics,392, 151 – 159

    Google Scholar 

  451. Daszyńska-Daszkiewicz J., Dziembowski W. A., Pamyatnykh A. A. (2003). “Constraints on stellar convection from multi-colour photometry of delta Scuti stars”, Astronomy and Astrophysics,407, 999 – 1006

    Google Scholar 

  452. Daszyńska-Daszkiewicz J., Dziembowski W. A., Pamyatnykh A. A., 2005a, “Constraints on parameters of B-type pulsators from combined multicolour photometry and radial velocity data. I. β Cephei stars”, Astronomy and Astrophysics,441, 641 – 651

    Google Scholar 

  453. Daszyńska-Daszkiewicz J., Dziembowski W. A., Pamyatnykh A. A., Breger M., Zima W., Houdek G., 2005b, “Inferences from pulsational amplitudes and phases for multimode δ Sct star FG Vir”, Astronomy and Astrophysics,438, 653 – 660

    Google Scholar 

  454. Davis, L.E. (1989). A reference guide to the IRAF/APPHOT package, NOAO, Tucson, Arizona, USA

    Google Scholar 

  455. Debosscher J., Sarro L. M., Aerts C., Cuypers J., Vandenbussche B., Garrido R., Solano E. (2007). “Automated supervised classification of variable stars. I. Methodology”, Astronomy and Astrophysics,475, 1159 – 1183

    Google Scholar 

  456. De Cat P. (2002). An observational study of bright southern slowly pulsating B stars, PhD Dissertation, Katholieke Universiteit Leuven, Belgium

    Google Scholar 

  457. De Cat P., Aerts C. (2002). “A study of bright southern slowly pulsating B stars. II. The intrinsic frequencies”, Astronomy and Astrophysics,393, 965 – 981

    Google Scholar 

  458. De Cat P., Cuypers J. (2003). “Period search zoo: observational questions”, Interplay of Periodic, Cyclic and Stochastic Variability in Selected Areas of the H-R Diagram, Ed. C. Sterken, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 292, 377 – 382

    Google Scholar 

  459. De Cat P., Aerts C., De Ridder J., Kolenberg K., Meeus G., Decin L. (2000). “A study of bright southern slowly pulsating B stars. I. Determination of the orbital parameters and of the main frequency of the spectroscopic binaries”, Astronomy and Astrophysics,355, 1015 – 1030

    Google Scholar 

  460. De Cat P., de Ridder J., Hensberge H., Ilijic S. (2004). “Spectroscopic study of the double-lined slowly pulsating B star HD 140873 and HD 123515”, In Spectroscopically and Spatially Resolving the Components of the Close Binary Stars, Eds R. W. Hilditch, H. Hensberge, K. Pavlovski, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 318, 338 – 341

    Google Scholar 

  461. De Cat P., Briquet M., Daszyńska-Daszkiewicz J., Dupret M. A., De Ridder J., Scuflaire R., Aerts C. (2005). “A study of bright southern slowly pulsating B stars. III. Mode identification for singly-periodic targets in spectroscopy”, Astronomy and Astrophysics,432, 1013 – 1024

    Google Scholar 

  462. De Cat P., Eyer L., Cuypers J., Aerts C., Vandenbussche B., Uytterhoeven K., Reyniers K., Kolenberg K., Groenewegen M., Raskin G., Maas T., Jankov S. (2006). “A spectroscopic study of southern (candidate) γ Doradus stars. I. Time series analysis”, Astronomy and Astrophysics,449, 281 – 292

    Google Scholar 

  463. De Cat P., Briquet M., Aerts C., Goossens K., Saesen S., Cuypers J., Yakut K., Scuflaire R., Dupret M.-A., Uytterhoeven K., Van Winckel H., Raskin G., Davignon G., Le Guillou L., van Malderen R., Reyniers M., Acke B., De Meester W., Vanautgaerden J., Vandenbussche B., Verhoelst T., Waelkens C., Deroo P., Reyniers K., Ausseloos M., Broeders E., Daszyńska-Daskiewicz J., Debosscher J., De Ruyter S., Lefever K., Decin G., Kolenberg K., Mazumdar A., van Kerckhoven C., De Ridder J., Drummond R., Barban C., Vanhollebeke E., Maas T., Decin L. (2007). “Long term photometric monitoring with the Mercator telescope. Frequencies and mode identification of variable O-B stars”, Astronomy and Astrophysics,463, 243 – 249

    Google Scholar 

  464. Decin L., Hony S., de Koter A., Justtanont K., Tielens A. G. G. M., Waters L. B. F. M. (2006). “Probing the mass-loss history of AGB and red supergiant stars from CO rotational line profiles. I. Theoretical models – mass-loss history unravelled in VY CMa”, Astronomy and Astrophysics, 456, 549 – 563

    Google Scholar 

  465. Decin L., Hony S., de Koter A., Justtanont K., Tielens A. G. G. M., Waters L. B. F. M. (2008). “Probing the mass-loss history of VY CMa”, In Mass Loss from Stars and the Evolution of Stellar Clusters, eds A. de Koter, L. Smith, R. Waters, ASP Conf. Ser. 388, 159 – 160

    Google Scholar 

  466. Deepak A. (1977). Inversion Methods in Atmospheric Remote Sounding, Academic, New York

    Google Scholar 

  467. de Groot M., Sterken C. (Eds) (2001). P Cygni 2000 - Four hundred years of progress, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 233

    Google Scholar 

  468. Delahaye F., Pinsonneault M. (2006). “The solar heavy-element abundances. I. Constraints from stellar interiors”, Astrophysical Journal,649, 529 – 540

    Google Scholar 

  469. De Marco O., Clayton G. C., Herwig F., Pollacco D. L., Clark J. S., Kilkenny D. (2002). “What Are the Hot R Coronae Borealis Stars?”, Astronomical Journal,123, 3387 – 3408

    Google Scholar 

  470. De Marco O., Sandquist E. L., Mac Low M.-M., Herwig F., Taam R. E. (2003). “Of Wolf-Rayet Central Stars and Common Envelopes”, Revista Mexicana de Astronomia y Astrofisica Conference Series,15, 34 – 37

    Google Scholar 

  471. Demarque P., Mengel J. G., Sweigart A. V. (1973). “Rotating solar models with low neutrino flux”, Astrophysical Journal,183, 997 – 1004 (Erratum: Nature,252, 368; 1974)

    Google Scholar 

  472. Demarque P., Guenther D. B., van Altena W. F. (1986). “The case of α Centauri: mass, age and p-mode oscillation spectrum”, Astrophysical Journal, 300, 773 – 778

    Google Scholar 

  473. Denissenkov P. A., Pinsonneault M., MacGregor K. B. (2008). “What prevents internal gravity waves from disturbing the solar uniform rotation?”, Astrophysical Journal,684, 757 – 769

    Google Scholar 

  474. De Pauw M., Aerts C., Waelkens C. (1993). “Mode identification of pulsating stars from line profile variations with the moment method. A theoretical study of the accuracy of the method”, Astronomy and Astrophysics,280, 493 – 507

    Google Scholar 

  475. De Ridder J., Dupret M.-A., Neuforge C., Aerts C. (2002). “Influence of non-adiabatic temperature variations on line profile variations of slowly rotating beta Cephei stars and SPBs. II. Simulations of line profile time series”, Astronomy and Astrophysics,385, 572 – 584

    Google Scholar 

  476. De Ridder J., Telting J. H., Balona L. A., Handler G., Briquet M., Daszyńska-Daszkiewicz J., Lefever K., Korn A. J., Heiter U., Aerts C. (2004). “Asteroseismology of the β Cephei star ν Eridani - III. Extended frequency analysis and mode identification”, Monthly Notices of the Royal Astronomical Society,351, 324 – 332

    Google Scholar 

  477. De Ridder J., Molenberghs G., Aerts C. (2005). “Estimating stellar oscillation-related parameters and their uncertainties with the moment method”, Applied Statistics,65, 1 – 16

    Google Scholar 

  478. De Ridder J., Barban C., Carrier F., Mazumdar A., Eggenberger P., Aerts C., Deruyter S., Vanautgaerden J. (2006). “Discovery of solar-like oscillations in the red giant ε Ophiuchi”, Astronomy and Astrophysics,448, 689 – 695

    Google Scholar 

  479. De Ruyter S., Van Winckel H., Maas T., Lloyd Evans T., Waters L. B. F. M., Dejonghe H. (2006). “Keplerian discs around post-AGB stars: a common phenomenon?”, Astronomy and Astrophysics,448, 641 – 653

    Google Scholar 

  480. de Santis R., Cassisi S. (1999). “A pulsational approach to the luminosity of horizontal branch stellar structures”, Monthly Notices of the Royal Astronomical Society,308, 97 – 110

    Google Scholar 

  481. Desmet M., Briquet M., Thoul A., Zima W., De Cat P., Handler G., Ilyin I., Kambe E., Krzesinski J., Lehmann H., Masuda S., Mathias P., Mkrtichian D. E., Telting J., Uytterhoeven K., Yang S. L. S., Aerts C. (2009). “An asteroseismic study of the beta Cephei star 12 Lacertae: multisite spectroscopic observations, mode identification and seismic modelling”, Monthly Notices of the Royal Astronomical Society,396, 1460 – 1472

    Google Scholar 

  482. Deubner F.-L. (1975). “Observations of low wavenumber nonradial eigenmodes of the Sun”, Astronomy and Astrophysics,44, 371 – 375

    Google Scholar 

  483. Deubner F.-L., Gough D. (1984). “Helioseismology: Oscillations as a Diagnostic of the Solar Interior”, Annual Review of Astronomy and Astrophysics,22, 593 – 619

    Google Scholar 

  484. Deubner F.-L., Ulrich R. K., Rhodes E. J. (1979). “Solar p-mode oscillations as a tracer of radial differential rotation”, Astronomy and Astrophysics,72, 177 – 185

    Google Scholar 

  485. Deupree R. G. (1995). “Stellar evolution with arbitrary rotation laws. II. Massive star evolution to core hydrogen exhaustion”, Astrophysical Journal,439, 357 – 364

    Google Scholar 

  486. Dicke R. H. (1964). “The Sun’s rotation and relativity”, Nature,202, 432 – 435

    Google Scholar 

  487. Dicke R. H., Goldenberg H. M. (1967). “Solar oblateness and general relativity”, Physical Review Letters,18, 313 – 316

    Google Scholar 

  488. Diener P., Kosovichev A. G., Kotok E. V., Novikov I. D., Pethick C. J. (1995). “Non-linear effects at tidal capture of stars by a massive black hole – II. Compressible affine models and tidal interaction after capture”, Monthly Notices of the Royal Astronomical Society,275, 498 – 506

    Google Scholar 

  489. Di Mauro M. P., Christensen-Dalsgaard J., Rabello-Soares M. C., Basu S. (2002). “Inferences on the solar envelope with high-degree modes”, Astronomy and Astrophysics,384, 666 – 677

    Google Scholar 

  490. Di Mauro, M. P., Christensen-Dalsgaard, J., Kjeldsen, H., Bedding, T. R., Paternò, L. (2003). “Convective overshooting in the evolution and seismology of η Bootis”, Astronomy and Astrophysics, 404, 341 – 353

    Google Scholar 

  491. Di Mauro, M. P., Christensen-Dalsgaard, J., Paternó, L., D’Antona, F. (2004). “Interpretation of the solar-like pulsational behaviour of η Bootis”, Solar Physics, 220, 185 – 198

    Google Scholar 

  492. Dintrans B., Rieutord M. (2000). “Oscillations of a rotating star: a non-perturbative theory”, Astronomy and Astrophysics, 354, 86 – 98

    Google Scholar 

  493. Dolez N., Gough D. O. (1982). “On the Problem of Interpreting Rapidly Oscillating Ap-Stars”, In Pulsations in Classical and Cataclysmic Variable Stars, 248

    Google Scholar 

  494. Domiciano de Souza A., Vakili F., Jankov S., Janot-Pacheco E., Abe L. (2002). “Modelling rapid rotators for stellar interferometry”, Astronomy and Astrophysics,393, 345 – 357

    Google Scholar 

  495. Domiciano de Souza, A., Kervella, P., Jankov, S., Abe, L., Vakili, F., di Folco, E., Paresce, F. (2003). “The spinning-top Be star Achernar from VLTI-VINCI”, Astronomy and Astrophysics,407, L47 – L50

    Google Scholar 

  496. Domiciano de Souza, A., Kervella, P., Jankov, S., Vakili, F., Ohishi, N., Nordgren, T. E., Abe, L. (2005). “Gravitation-darkening of Altair from interferometry”, Astronomy and Astrophysics,442, 567 – 578

    Google Scholar 

  497. Domingo V., Fleck B., Poland A. I. (1995). “The SOHO mission: an overview”, Solar Physics,162, 1 – 37

    Google Scholar 

  498. Donati J.-F., Semel M., Carter B. D., Rees D. E., Collier Cameron A. (1997). “Spectropolarimetric observations of active stars”, Monthly Notices of the Royal Astronomical Society,291, 658 – 682

    Google Scholar 

  499. Dorfi E. A., Gautschy A., Saio H. (2006). “A MOST probable explanation of the pulsation of WR 123”, Astronomy and Astrophysics,453, L35 – L37

    Google Scholar 

  500. Drake J. J., Testa P. (2005). “The solar model problem solved by the abundance of neon in stars of the local cosmos”, Nature,436, 525 – 528

    Google Scholar 

  501. Dravins D., Lindegren L., Mezey E., Young A. T. (1998). “Atmospheric Intensity Scintillation of Stars. III. Effects for Different Telescope Apertures”, Publications of the Astronomical Society of the Pacific,110, 610 – 633

    Google Scholar 

  502. Dufour P., Liebert J., Fontaine G., Behara N. (2007). “White dwarf stars with carbon atmospheres”, Nature,450, 522 – 524

    Google Scholar 

  503. Dufton P. L., Ryans R. S. I., Trundle C., Lennon D. J., Hubeny I., Lanz T., Allende Prieto C. (2005). “B-type supergiants in the SMC: Chemical compositions and comparison of static and unified models”, Astronomy and Astrophysics,434, 1125 – 1137

    Google Scholar 

  504. Dullemond C. P., van den Ancker M. E., Acke B., van Boekel R. (2003). “Explaining UX Orionis Star Variability with Self-shadowed Disks”, Astrophysical Journal,594, L47 – L50

    Google Scholar 

  505. Dupret M. A. (2001). “Nonradial nonadiabatic stellar pulsations: A numerical method and its application to a beta Cephei model”, Astronomy and Astrophysics,366, 166 – 173

    Google Scholar 

  506. Dupret, M. A. (2002). Non-radial non-adiabatic oscillations of near main sequence variable stars, PhD Dissertation, Université de Liège, Belgium

    Google Scholar 

  507. Dupret M.-A., De Ridder J., Neuforge C., Aerts C., Scuflaire R. (2002). “Influence of non-adiabatic temperature variations on line profile variations of slowly rotating beta Cep stars and SPBs. I. Non-adiabatic eigenfunctions in the atmosphere of a pulsating star”, Astronomy and Astrophysics,385, 563 – 571

    Google Scholar 

  508. Dupret M.-A., De Ridder J., De Cat P., Aerts C., Scuflaire R., Noels A., Thoul A. (2003). “A photometric mode identification method, including an improved non-adiabatic treatment of the atmosphere”, Astronomy and Astrophysics,398, 677 – 685

    Google Scholar 

  509. Dupret M.-A., Grigahcène A., Garrido R., Gabriel M., Scuflaire R., 2004a, “Theoretical instability strips for δ Scuti and γ Doradus stars”, Astronomy and Astrophysics,414, L17 – L20

    Google Scholar 

  510. Dupret M.-A., Thoul A., Scuflaire R., Daszyńska-Daszkiewicz J., Aerts C., Bourge P.-O., Waelkens C., Noels A., 2004b, “Asteroseismology of the β Cep star HD 129929. II. Seismic constraints on core overshooting, internal rotation and stellar parameters”, Astronomy and Astrophysics,415, 251 – 257

    Google Scholar 

  511. Dupret M.-A., Grigahcène A., Garrido R., Gabriel M., Scuflaire R., 2005a, “Convection-pulsation coupling. II. Excitation and stabilization mechanisms in δ Sct and γ Dor stars”, Astronomy and Astrophysics,435, 927 – 939

    Google Scholar 

  512. Dupret M.-A., Grigahcène A., Garrido R., De Ridder J., Scuflaire R., Gabriel M., 2005b, “Time-dependent convection seismic study of five γ Doradus stars”, Monthly Notices of the Royal Astronomical Society,360, 1143 – 1152

    Google Scholar 

  513. Dupret M. A., Quirion P. O., Fontaine G., Brassard P., Grigahcène A., 2008a, “Time-dependent convection study of the driving mechanism in the DBV white dwarfs”, Journal of Physics, Conference Series, 118, 012051(1 – 6)

    Google Scholar 

  514. Dupret M.-A., Miglio A., Montalban J., Grigahcène A., Noels A., 2008b, “Driving and damping mechanisms in hybrid pressure-gravity modes pulsators”, In Proc. HELAS II International Conference: Helioseismology, Asteroseismology and the MHD Connections, Eds L. Gizon, M. Roth, Journal of Physics Conference Series,118, 012020(1 – 7)

    Google Scholar 

  515. Dupret M.-A., Belkacem K., Samadi R., Montalban J., Moreira O., Miglio A., Godart M., Ventura P., Ludwig H.-G., Grigahcène A., Goupil M.-J., Noels A., Caffau E. (2009). “Theoretical amplitudes and lifetimes of non-radial solar-like oscillations in red giants”, Astronomy and Astrophysics, 506, 57 – 67

    Google Scholar 

  516. Durney B. R. (1972). “Evidence for changes in the angular velocity of the surface regions of the sun and stars. Comments”, In Solar Wind, Eds C. P. Sonett, P. J. Coleman, J. M. Wilcox, Washington, Scientific and Technical Information Office, National Aeronautics and Space Administration, 282 – 285

    Google Scholar 

  517. Duvall T. L. (1982). “A dispersion law for solar oscillations”, Nature, 300, 242 – 243

    Google Scholar 

  518. Duvall T. L., Harvey J. W. (1983). “Observations of solar oscillations of low and intermediate degree”, Nature,302, 24 – 27

    Google Scholar 

  519. Duvall T. L., Harvey J. W. (1984). “Rotational frequency splitting of solar oscillations”, Nature,310, 19 – 22

    Google Scholar 

  520. Duvall T. L., Jr., Harvey J. W. (1986). “Solar Doppler shifts - Sources of continuous spectra”, Proceedings of the NATO Advanced Research Workshop 169: Seismology of the Sun and the Distant Stars, Ed. D. O. Gough, Dordrecht, D. Reidel Publishing Co., 105 – 116

    Google Scholar 

  521. Duvall T. L., Dziembowski W. A., Goode P. R., Gough D. O., Harvey J. W., Leibacher J. W. (1984). “The internal rotation of the Sun”, Nature,310, 22 – 25

    Google Scholar 

  522. Duvall T. L., Harvey J. W., Pomerantz M. A. (1986). “Latitude and depth variation of solar rotation”, Nature,321, 500 – 501

    Google Scholar 

  523. Duvall T. L., Jefferies S. M., Harvey J. W., Osaki Y., Pomerantz, M. A. (1993). “Asymmetries of solar oscillation line profiles”, Astrophysical Journal,410, 829 – 836

    Google Scholar 

  524. Dworetsky M. M. (1983). “A period-finding method for sparse randomly spaced observations of ’How long is a piece of string?”’, Monthly Notices of the Royal Astronomical Society,203, 917 – 924

    Google Scholar 

  525. Dyson J., Schutz B. F. (1979). “Perturbations and stability of rotating stars. I. Completeness of normal modes”, Proc. Roy. Soc. London, A368, 389 – 410

    Google Scholar 

  526. Dzhalilov N. S., Staude J. (2004). “Eigenoscillations of the differentially rotating Sun. II. Generalization of the Laplace tidal equation”, Astronomy and Astrophysics,421, 305 – 322

    Google Scholar 

  527. Dziembowski W., 1977a, “Oscillations of giants and supergiants”, Acta Astronomica, 27, 95 – 126

    Google Scholar 

  528. Dziembowski W., 1977b, “Light and radial velocity variations in a nonradially oscillating star”, Acta Astronomica,27, 203 – 211

    Google Scholar 

  529. Dziembowski W. (1983). “Resonant coupling between solar gravity modes”, Solar Physics,82, 259 – 266

    Google Scholar 

  530. Dziembowski W. A., Cassisi S. (1999). “Nonradial Modes in RR Lyr Stars”, Acta Astronomica,49, 371 – 382

    Google Scholar 

  531. Dziembowski W., Goode P. R. (1985). “Frequency splitting in Ap stars”, Astrophysical Journal,296, L27 – L30

    Google Scholar 

  532. Dziembowski W. A., Goode P. R. (1992). “Effects of differential rotation on stellar oscillations: a second-order theory”, Astrophysical Journal,394, 670 – 687

    Google Scholar 

  533. Dziembowski W. A., Goode P. R. (1996). “Magnetic Effects on Oscillations in roAp Stars”, Astrophysical Journal,458, 338 – 346

    Google Scholar 

  534. Dziembowski W. A., Goode P. R. (1997). “Seismic sounding of the solar core: purging the corruption from the Sun’s magnetic field”, Astronomy and Astrophysics, 317, 919 – 924

    Google Scholar 

  535. Dziembowski W. A., Goode P. R. (2004). “Helioseismic probing of solar variability: the formalism and simple assessments”, Astrophysical Journal,600, 464 – 479

    Google Scholar 

  536. Dziembowski W. A., Goode P. R. (2005). “Sources of oscillation frequency increase with rising solar activity”, Astrophysical Journal,625, 548 – 555

    Google Scholar 

  537. Dziembowski W. A., Fiorentini G., Ricci B., Sienkiewicz R. (1999). “Helioseismology and the solar age”, Astronomy and Astrophysics, 343, 990 – 996

    Google Scholar 

  538. Dziembowski W. A., Jerzykiewicz M. (2003). “ν Eridani: a Very Slowly Rotating and Possibly Magnetic β Cephei Star”, In Magnetic Fields in O, B and A Stars: Origin and Connection to Pulsation, Rotation and Mass Loss, Eds L. A. Balona, H. F. Henrichs, R. Medupe, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 305, 319 – 327

    Google Scholar 

  539. Dziembowski W., Kosovichev A., 1987a, “Low frequency oscillations in slowly rotating stars. I. General properties”, Acta Astronomica,37, 313 – 330

    Google Scholar 

  540. Dziembowski W., Kosovichev A., 1987b, “Low frequency oscillations in slowly rotating stars. II. Inertial modes in the solar convective envelope”, Acta Astronomica,37, 331 – 339

    Google Scholar 

  541. Dziembowski W., Kosovichev A., 1987c, “Low frequency oscillations in slowly rotating stars. III. Kelvin-Helmholtz instability”, Acta Astronomica,37, 341 – 348

    Google Scholar 

  542. Dziembowski W., Królikowska M. (1990). “On the mechanism of mode selection in δ Scuti stars”, Acta Astronomica, 40, 19 – 26

    Google Scholar 

  543. Dziembowski, W. A., Pamyatnykh, A. A. (1991). “A potential asteroseismological test for convective overshooting theories”, Astronomy and Astrophysics,248, L11 – L14

    Google Scholar 

  544. Dziembowski W. A., Pamiatnykh A. A. (1993). “The opacity mechanism in B-type stars. I - Unstable modes in Beta Cephei star models”, Monthly Notices of the Royal Astronomical Society,262, 204 – 212

    Google Scholar 

  545. Dziembowski W. A., Pamyatnykh A. A. (2008). “The two hybrid B-type pulsators: ν Eridani and 12 Lacertae”, Monthly Notices of the Royal Astronomical Society,385, 2061 – 2068

    Google Scholar 

  546. Dziembowski W. A., Slawinska J. (2005). “On the Nature of Regular Pulsation in Two LBV Stars of NGC 300”, Acta Astronomica,55, 195 – 204

    Google Scholar 

  547. Dziembowski W. A., Goode P. R., Libbrecht K. G. (1989). “The radial gradient in the Sun’s rotation”, Astrophysical Journal,337, L53 – L57

    Google Scholar 

  548. Dziembowski W. A., Pamyatnykh A. A., Sienkiewicz R. (1990). “Solar model from helioseismology and the neutrino flux problem”, Monthly Notices of the Royal Astronomical Society,244, 542 – 550

    Google Scholar 

  549. Dziembowski W. A., Pamyatnykh A. A., Sienkiewicz R. (1991). “Helium content in the solar convective envelope from helioseismology”, Monthly Notices of the Royal Astronomical Society,249, 602 – 605

    Google Scholar 

  550. Dziembowski W. A., Moskalik P., Pamyatnykh A. A. (1993). “The Opacity Mechanism in B-Type Stars - Part Two - Excitation of High-Order G-Modes in Main Sequence Stars”, Monthly Notices of the Royal Astronomical Society,265, 588 – 600

    Google Scholar 

  551. Dziembowski W. A., Goode P. R., Di Mauro M. P., Kosovichev A. G., Schou J. (1998). “Solar cycle onset seen in SOHO Michelson Doppler Imager seismic data”, Astrophysical Journal,509, 456 – 460

    Google Scholar 

  552. Dziembowski W. A., Goode P. R., Kosovichev A. G., Schou J. (2000). “Signatures of the rise of cycle 23”, Astrophysical Journal,537, 1026 – 1038

    Google Scholar 

  553. Dziembowski W. A., Gough D. O., Houdek G., Sienkiewicz R., 2001a, “Oscillations of α UMa and other red giants”, Monthly Notices of the Royal Astronomical Society,328, 601 – 610

    Google Scholar 

  554. Dziembowski W. A., Goode P. R., Schou J., 2001b, “Does the Sun shrink with increasing magnetic activity?” Astrophysical Journal,553, 897 – 904

    Google Scholar 

  555. Dziembowski W. A., Daszyńska-Daskiewicz J., Pamyatnykh A. A. (2007). “Excitation and visibility of slow modes in rotating B-type stars”, Monthly Notices of the Royal Astronomical Society,374, 248 – 255

    Google Scholar 

  556. Eckart C. (1960). Hydrodynamics of Oceans and Atmospheres, Pergamon Press, Oxford

    Google Scholar 

  557. Eddington A. S. (1926). The internal constitution of the stars, Cambridge University Press, Cambridge

    Google Scholar 

  558. Edmonds A. R. (1960). Angular Momentum in Quantum Mechanics, Princeton: Princeton University Press

    Google Scholar 

  559. Edmonds P. D., Cram L. E. (1995). “A search for global acoustic oscillations on α1 Cen and β Hyi”, Monthly Notices of the Royal Astronomical Society, 276, 1295 – 1302

    Google Scholar 

  560. Edmonds P. D., Gilliland R. L. (1996). “K giants in 47 Tucanae: detection of a new class of variable stars”, Astrophysical Journal,464, L157 – L160

    Google Scholar 

  561. Edmonds P., Cram L., Demarque P., Guenther D. B., Pinsonneault M. H. (1992). “Evolutionary models and the p-mode oscillation spectrum of α Centauri A and B”, Astrophysical Journal, 394, 313 – 319

    Google Scholar 

  562. Edvardsson B., Andersen J., Gustafsson B., Lambert D. L., Nissen P. E., Tomkin J. (1993). “The chemical evolution of the galactic disk. I. Analysis and results”, Astronomy and Astrophysics, 275, 101 – 152

    Google Scholar 

  563. Eff-Darwich A., Korzennik S. G., Jiménez-Reyes S. J., Pérez Hernández F. (2002). “An upper limit on the temporal variations of the solar interior stratification”, Astrophysical Journal,580, 574 – 578

    Google Scholar 

  564. Eff-Darwich A., Korzennik S. G., Jiménez-Reyes S. J., García R. A. (2008). “Analysis of the sensitivity of solar rotation to helioseismic data from GONG, GOLF, and MDI observations”, Astrophysical Journal,679, 1636 – 1643

    Google Scholar 

  565. Eggenberger P., Charbonnel C., Talon S., Meynet G., Maeder A., Carrier F., Bourban G. (2004). “Analysis of α Centauri AB including seismic constraints”, Astronomy and Astrophysics, 417, 235 – 246

    Google Scholar 

  566. Eggenberger P., Maeder A., Meynet G., 2005a, “Stellar evolution with rotation and magnetic fields. IV. The solar rotation profile”, Astronomy and Astrophysics,440, L9 – L12

    Google Scholar 

  567. Eggenberger, P., Carrier, F., Bouchy, F., 2005b, “Models of Procyon A including seismic constraints”, New Astronomy, 10, 195 – 208

    Google Scholar 

  568. Eggleton P. P., Faulkner J., Flannery B. P. (1973). “An approximate equation of state for stellar material”, Astronomy and Astrophysics,23, 325 – 330

    Google Scholar 

  569. Eisenfeld J. (1969). “A completeness theorem for an integro-differential operator”, J. Math. Anal. Applic., 26, 357 – 375

    Google Scholar 

  570. Eisenstein D. J., Liebert J., Harris H. C., Kleinman S. J., Nitta A., Silvestri N., Anderson S. A., Barentine J. C., Brewington H. J., Brinkmann J., Harvanek M., Krzesiński J., Neilsen E. H., Jr., Long D., Schneider D. P., Snedden S. A., 2006a, “A Catalog of Spectroscopically Confirmed White Dwarfs from the Sloan Digital Sky Survey Data Release 4”, Astrophysical Journal Supplement Series,167, 40 – 58

    Google Scholar 

  571. Eisenstein D. J., Liebert J., Koester D., Kleinmann S. J., Nitta A., Smith P. S., Barentine J. C., Brewington H. J., Brinkmann J., Harvanek M., Krzesiński J., Neilsen E. H., Jr., Long D., Schneider D. P., Snedden S. A., 2006b, “Hot DB White Dwarfs from the Sloan Digital Sky Survey”, Astronomical Journal,132, 676 – 691

    Google Scholar 

  572. Elkin V. G., Kurtz D. W., Mathys G. (2005). “The discovery of remarkable 5 km s − 1 pulsational radial velocity variations in the roAp star HD99563”, Monthly Notices of the Royal Astronomical Society,364, 864 – 872

    Google Scholar 

  573. Elliott J. R., Gough D. O. (1999). “Calibration of the thickness of the solar tachocline”, Astrophysical Journal,516, 475 – 481

    Google Scholar 

  574. Elliott J. R., Kosovichev A. G. (1998). “The adiabatic exponent in the solar core”, Astrophysical Journal,500, L199 – L202

    Google Scholar 

  575. Ellis A. N. (1986). “An improved asymptotic formula for solar gravity-mode periods”, Seismology of the Sun and the distant Stars, Ed. D. O. Gough, Reidel, Dordrecht, 173 – 175

    Google Scholar 

  576. Elsworth Y., Howe R., Isaak G. R., McLeod C. P., New R. (1990). “Evidence from solar seismology against non-standard solar-core models”, Nature,347, 536 – 539

    Google Scholar 

  577. Elsworth Y., Howe R., Isaak G. R., McLeod C. P., Miller B. A., New R., Wheeler S. J., Gough D. O. (1995). “Slow rotation of the Sun’s interior”, Nature,376, 669 – 672

    Google Scholar 

  578. Elsworth Y. P., Baudin F., Chaplin W, Andersen B, Appourchaux T., Boumier P., Broomhall A.-M., Corbard T., Finsterle W., Fröhlich C., Gabriel A., García R. A., Gough D. O., Grec G., Jimńez A., Kosovichev A., Provost J., Sekii T., Toutain T., Turck-Chiez̀e S. (2006). “The internal structure of the Sun inferred from g modes and low-frequency p modes”, In Proc. SOHO 18 / GONG 2006 / HELAS I Conf. Beyond the spherical Sun, Ed. K. Fletcher, ESA SP-624, ESA Publications Division, Noordwijk, The Netherlands

    Google Scholar 

  579. Epchtein N. (2007). “ARENA: Toward a European Astronomical Facility at Dome C CONCORDIA”, EAS Publications Series,25, 1 – 4

    Google Scholar 

  580. Eyer L., Aerts C. (2000). “A search for new gamma Doradus stars in the Geneva photometric database”, Astronomy and Astrophysics,361, 201 – 206

    Google Scholar 

  581. Eyer L., Bartholdi P. (1999). “Variable stars: Which Nyquist frequency?”, Astronomy and Astrophysics Supplement Series,135, 1 – 3

    Google Scholar 

  582. Eyer L., Mowlavi N. (2008). “Variable stars across the observational HR diagram”, in Proc. Helioseismology, Asteroseismology and MHD Connections, Eds L. Gizon, M. Roth, Journal of Physics, Conference Series, 118, 012010(1 – 21)

    Google Scholar 

  583. Faulkner J. (2004). “Red giants: then and now”, In The Scientific Legacy of Fred Hoyle, Ed. D. Gough, Cambridge University Press, 149 – 226

    Google Scholar 

  584. Feast M. W., Glass I. S., Whitelock P. A., Catchpole R. M. (1989). “A period-luminosity-colour relation for Mira variables”, Monthly Notices of the Royal Astronomical Society,241, 375 – 392

    Google Scholar 

  585. Feast M. W., Carter B. S., Roberts G., Marang F., Catchpole R. M. (1997). “The R Coronae Borealis stars - I. Infrared photometry and long-term variations”, Monthly Notices of the Royal Astronomical Society,285, 317 – 338

    Google Scholar 

  586. Fernandes J., Neuforge C. (1995). “α Centauri and convection theories”, Astronomy and Astrophysics, 295, 678 – 684

    Google Scholar 

  587. Fernie J. D. (1994). “AC Andromedae: the missing link between δ Scuti stars and classical Cepheids?”, Monthly Notices of the Royal Astronomical Society, 271, L19 – L20

    Google Scholar 

  588. Ferrari V., Miniutti G., Pons J. A. (2003). “Gravitational waves from newly born, hot neutron stars”, Monthly Notices of the Royal Astronomical Society,342, 629 – 638

    Google Scholar 

  589. Ferraro F. R., Sabbi E., Gratton R., Piotto G., Lanzoni B., Carretta E., Rood R. T., Sills A., Fusi Pecci F., Moehler S., Beccari G., Lucatello S., Compagni N. (2006). “Discovery of Carbon/Oxygen-depleted Blue Straggler Stars in 47 Tucanae: The Chemical Signature of a Mass Transfer Formation Process”, Astrophysical Journal,647, L53 – L56

    Google Scholar 

  590. Ferraz-Mello S. (1981). “Estimation of Periods from Unequally Spaced Observations”, Astronomical Journal,86, 619 – 625

    Google Scholar 

  591. Feuchtinger M. U. (1999). “A nonlinear convective model for radial stellar pulsations. I. The physical description”, Astronomy and Astrophysics Supplement Series,136, 217 – 226

    Google Scholar 

  592. Fitch W. S. (1967). “Evidence of Tidal Effects in Some Pulsating Stars. I. CC Andromedae and Sigma Scorpii”, Astrophysical Journal,148, 481 – 496

    Google Scholar 

  593. Fitch W. S. (1969). “Evidence of Tidal Effects in Some Pulsating Stars. II. 16 Lacertae and β Cephei”, Astrophysical Journal,158, 269 – 280

    Google Scholar 

  594. Fitch W. S., Szeidl B. (1976). “The three radial modes and evolutionary state of AC Andromedae”, Astrophysical Journal,203, 616 – 624

    Google Scholar 

  595. Fitch W. S., Wisniewski W. Z. (1979). “Tidal effects in pulsating stars. III - l = 1 p5 modes in the ellipsoidal variable 14 Aurigae A”, Astrophysical Journal,231, 808 – 825

    Google Scholar 

  596. Flannery B. P., Ayres T. R. (1978). “Evolution of the α Centauri system”, Astrophysical Journal, 221, 175 – 185

    Google Scholar 

  597. Fletcher S. T., Chaplin W. J., Elsworth Y., Schou J., Buzasi D. (2006). “Frequency, splitting, linewidth and amplitude estimates of low- p modes of α Cen A: analysis of Wide-Field Infrared Explorer photometry”, Monthly Notices of the Royal Astronomical Society, 371, 935 – 944

    Google Scholar 

  598. Fokin A. B. (1994). “Nonlinear pulsations of the RV Tauri stars”, Astronomy and Astrophysics,292, 133 – 151

    Google Scholar 

  599. Fontaine G., Brassard P. 2008a, “The Pulsating White Dwarf Stars”, Publications of the Astronomical Society of the Pacific,120, 1043 – 1096

    Google Scholar 

  600. Fontaine G., Brassard P., 2008b, “The degenerate pulsators”, Communications in Asteroseismology, 157, 177 – 184

    Google Scholar 

  601. Fontaine G., Wesemael F. (1987). “Recent advances in the theory of white dwarf spectral evolution”, IAU Colloq. 95: Second Conference on Faint Blue Stars, L. Davis Press, Inc., New York, 319 – 326

    Google Scholar 

  602. Fontaine G., Brassard P., Bergeron P. (2001). “The potential of white dwarf cosmochronology”, Publications of the Astronomical Society of the Pacific,113, 409 – 435

    Google Scholar 

  603. Fontaine G., Brassard P., Charpinet S., Green E. M., Chayer P., Billères M., Randall S. K., 2003a, “A Driving Mechanism for the Newly Discovered Long-Period Pulsating Subdwarf B Stars”, Astrophysical Journal,597, 518 – 534

    Google Scholar 

  604. Fontaine G., Brassard P., Charpinet S., Green E. M., Willems B., 2003b, “On the Potential of Tidal Excitation of Gravity Modes in Hot B Subdwarfs”, In Asteroseismology Across the HR Diagram, Eds M.J. Thompson, M.S. Cunha, M.J.P.F.G. Monteiro, Astrophysics and Space Science, 284, 517 – 520

    Google Scholar 

  605. Fontaine G., Brassard P., Charpinet S. (2007). “On the Origin of the Small-Frequency Spacings Found in the Pulsation Spectra of Hot B Subdwarf Stars”, Astrophysical Journal,654, 1087 – 1094

    Google Scholar 

  606. Formicola A., Imbriani G., Costantini H., Angulo C., Bemmerer D., Bonetti R., Broggini C., Corvisiero P., Cruz J., Descouvemont P., Fülöp Z., Gervino G., Guglielmetti A., Gustavino C., Gyürky G., Jesus A. P., Junker M., Lemut A., Menegazzo R., Prati P., Roca V., Rolfs C., Romano M., Rossi Alvarez C., Schümann F., Somorjai E., Straniero O., Strieder F., Terrasi F., Trautvetter H. P., Vomiero A., Zavatarelli S. (2004). “Astrophysical X-factor of 14N(p, γ)15O”, Physical Letters B,591, 61 – 68

    Google Scholar 

  607. Fossat E. (1991). “The IRIS network for full disk helioseismology: Present status of the programme”, Solar Physics,133, 1 – 12

    Google Scholar 

  608. Fossat E., Ricort G. (1975). “Photospheric oscillations. I. Large scale observations by optical resonance method”, Astronomy and Astrophysics,43, 243 – 252

    Google Scholar 

  609. Fossat E., Roddier F. (1971). “A sodium experiment for photospheric velocity field observations”, Solar Physics,18, 204 – 210

    Google Scholar 

  610. Foster G., 1996a, “Time Series Analysis by Projection. I. Statistical Properties of Fourier Analysis”, Astronomical Journal,111, 541 – 554

    Google Scholar 

  611. Foster G., 1996b, “Time Series Analysis by Projection. II. Tensor Methods for Time Series Analysis”, Astronomical Journal,111, 555 – 566

    Google Scholar 

  612. Foukal P. V. (2004). Solar Astrophysics, 2nd edition, Wiley-VCH, Weinheim

    Google Scholar 

  613. Frandsen S., Carrier F., Aerts C., Stello D., Maas T., Burnet M., Bruntt H., Teixeira T. C., De Medeiros J. R., Bouchy F., Kjeldsen H., Pijpers F., Christensen-Dalsgaard J. (2002). “Detection of Solar-like oscillations in the G7 giant star xi Hya”, Astronomy and Astrophysics,394, L5 – L8

    Google Scholar 

  614. Fraser O. J., Hawley S. L., Cook K. H., Keller S. C. (2005). “Long-period variables in the Large Magellanic Cloud: results from MACHO and 2MASS”, Astronomical Journal,129, 768 – 775

    Google Scholar 

  615. Frazier E. N. (1968). “A spatio-temporal analysis of the velocity fields in the solar photosphere”, Zeitung für Astrophysik,68, 345 – 356

    Google Scholar 

  616. Frémat Y., Lampens P., Hensberge H. (2005). “Spectral disentangling of the triple system DG Leo: orbits and chemical composition”, Monthly Notices of the Royal Astronomical Society,356, 545 – 556

    Google Scholar 

  617. Freyhammer L. M., Hensberge H., Sterken C., Pavlovski K., Smette A., Ilijić S. (2005). “The β Cephei variable in the eclipsing binary HD 92024. I. Determination of the orbit”, Astronomy and Astrophysics,429, 631 – 643

    Google Scholar 

  618. Fröhlich C., Lean J. (2004). “Solar radiative output and its variability: evidence and mechanisms”, Astronomy and Astrophysics Review,12, 273 – 320

    Google Scholar 

  619. Fröhlich C., Romero J., Roth H., Wehrli C., Andersen B. N., Appourchaux T., Domingo V., Telljohann U., Berthomieu G., Delache P., Provost J., Toutain T., Crommelynck D. A., Chevalier A., Fichot A., Däppen W., Gough D., Hoeksema T., Jiménez A., Gómez M. F., Herreros J. M., Roca Cortés T., Jones A. R., Pap J. M., Willson R. C. (1995). “VIRGO: Experiment for helioseismology and solar irradiance monitoring”, Solar Physics,162, 101 – 128

    Google Scholar 

  620. Fröhlich C., Crommelynck D. A., Wehrli C., Anklin M., Dewitte S., Fichot A., Finsterle W., Jiménez A., Chevalier A., Roth H. (1997). “In-flight performance of the VIRGO solar irradiance instrument on SOHO”, Solar Physics,175, 267 – 286

    Google Scholar 

  621. Frolov M. S., Irkaev B. N. (1984). “On the SX Phe-Type Stars”, Information Bulletin on Variable Stars,2462, 1 – 2

    Google Scholar 

  622. Frost E. B., Adams W. S. (1903). “Five stars whose radial velocities vary”, Astrophysical Journal,17, 150 – 153

    Google Scholar 

  623. Frost E. B., Barrett S. B., Struve O. (1926). “Radial velocities of 368 helium stars”, Astrophysical Journal,64, 1 – 77

    Google Scholar 

  624. Fukugita M., Ichikawa T., Gunn J. E., Doi M., Shimasaku K., Schneider D. P. (1996). “The Sloan Digital Sky Survey Photometric System”, Astronomical Journal,111, 1748 – 1756

    Google Scholar 

  625. Gabriel A. H., Grec G., Charra J., Robillot J.-M., Roca Cortés T., Turck-Chièze S., Bocchia R., Boumier P., Cantin M., Cespédes E., Cougrand B., Crétolle J., Damé L., Decaudin M., Delache P., Denis N., Duc R., Dzitko H., Fossat E., Fourmond J.-J., García R. A., Gough D., Grivel C., Herreros J. M., Lagardère H., Moalic J.-P., Pallé P. L., Pétrou N., Sanchez M., Ulrich R., van der Raay H. B. (1995). “Global oscillations at low frequency from the SOHO mission (GOLF)”, Solar Physics,162, 61 – 99

    Google Scholar 

  626. Gabriel A. H., Charra J., Grec G., Robillot J.-M., Roca Cortés T., Turck-Chièze S., Ulrich R., Basu S., Baudin F., Bertello L., Boumier P., Charra M., Christensen-Dalsgaard J., Decaudin M., Dzitko H., Foglizzo T., Fossat E., García R. A., Herreros J. M., Lazrek M., Pallé P. L., Pétrou N., Renaud C., Régulo C. (1997). “Performance and early results from the GOLF instrument flown on the SOHO mission”, Solar Physics,175, 207 – 226

    Google Scholar 

  627. Gabriel A. H., Baudin F., Boumier P., García R. A., Turck-Chièze S., Appourchaux T., Bertello L., Berthomieu G., Charra J., Gough D. O., Pallé P. L., Provost J., Renaud C., Robillot J.-M., Roca Cortés T., Thiery S., Ulrich R. K. (2002). “A search for solar g modes in the GOLF data”, Astronomy and Astrophysics,390, 1119 – 1131

    Google Scholar 

  628. Gabriel M. (1986). “Solar g modes: a method to find the depth of the convection zone”, Seismology of the Sun and the distant Stars, Ed. D. O. Gough, Reidel, Dordrecht, 177 – 186

    Google Scholar 

  629. Gabriel M. (1993). “On the location of the excitation of solar p-modes”, Astronomy and Astrophysics,274, 935 – 939

    Google Scholar 

  630. Gabriel M. (1996). “Solar oscillations: theory”, Bulletin of the Astronomical Society of India,24, 233 – 243

    Google Scholar 

  631. Gabriel M. (2000). “Linear interaction between pulsations and convection, scattering and line profiles of solar p-modes”, Astronomy and Astrophysics,353, 399 – 408

    Google Scholar 

  632. Gabriel M., Scuflaire R., Noels A., Boury A. (1974). “Influence de la convection sur la stabilité des oscillations non radiales des étoiles”, Bulletin de l’Académie Royal de Belgique, Classe des Sciences, 5 ième Série, 60, 866 – 887

    Google Scholar 

  633. Gabriel M., Scuflaire R., Noels A., Boury A. (1975). “Influence of convection on the vibrational stability of stars towards non-radial oscillations”, Astronomy and Astrophysics,40, 33 – 39

    Google Scholar 

  634. Gamarova A. Y., Mkrtichian D. E., Rodriguez E., Costa V., Lopez-Gonzalez M. J. (2003). “Application of the Spatial Filtration Method to RZ Cas”, In Interplay of Periodic, Cyclic and Stochastic Variability in Selected Areas of the H-R Diagram, Ed. C. Sterken, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 292, 369

    Google Scholar 

  635. Gamarova A., Hatzes A. P., Mkrtichian D. E. (2004). “Radial Velocity variations of the roAp-star HD 122970: new results”, Communications in Asteroseismology,145, 80

    Google Scholar 

  636. Garaud P. (2007). “Magnetic confinement of the solar tachocline”, In The solar tachocline, Eds D. W. Hughes, R. Rosner, N. O. Weiss, Cambridge University Press, 147 – 181

    Google Scholar 

  637. Garaud P., Garaud J.-D. (2008). “Dynamics of the solar tachocline – II: the stratified case”, Monthly Notices of the Royal Astronomical Society,391, 1239 – 1258

    Google Scholar 

  638. García R. A., Corbard T., Chaplin W. J., Couvidat S., Eff-Darwich A., Jiménez-Reyes S. J., Korzennik S. G., Ballot J., Boumier P., Fossat E., Henney C. J., Howe R., Lazrek M., Lochard J., Pallé P. L., Turck-Chièze S. (2004). “About the rotation of the solar radiative interior”, Solar Physics,220, 269 – 285

    Google Scholar 

  639. García R. A., Turck-Chièze S., Boumier P., Robillot J. M., Bertello L., Charra J., Dzitko H., Gabriel A. H., Jiménez-Reyes S. J., Pallé P., Renaud C., Roca Cortés T., Ulrich R. K. (2005). “Global solar Doppler velocity determination with the GOLF/SoHO instrument”, Astronomy and Astrophysics,442, 385 – 395

    Google Scholar 

  640. García R. A., Turck-Chièze S., Jiménez-Reyes S. J., Ballot J., Pallé P., Eff-Darwich A., Mathur S., Provost J. (2007). “Tracking solar gravity modes: the dynamics of the solar core”, Science,316, 1591 – 1593

    Google Scholar 

  641. Garrido R. (2000). “Photometric Modal Discrimination in δ Scuti and γ Doradus Stars”, In Delta Scuti and Related Stars, Eds M. Breger, M. Montgomery, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 210, 67 – 89

    Google Scholar 

  642. Garrido R., Garcia-Lobo E., Rodriguez E. (1990). “Modal discrimination of pulsating stars by using Stromgren photometry”, Astronomy and Astrophysics,234, 262 – 268

    Google Scholar 

  643. Gautschy A. (1995). “Wolf-Rayet-type central stars of planetary nebulae: Are there pulsations involved?”, Astronomy and Astrophysics,302, 401 – 406

    Google Scholar 

  644. Gautschy A., Saio H. (1993). “On non-radial oscillations of B-type stars”, Monthly Notices of the Royal Astronomical Society,262, 213 – 219

    Google Scholar 

  645. Gautschy A., Saio H. (1996). “Stellar Pulsations Across the HR Diagram: Part 2”, Annual Review of Astronomy and Astrophysics,34, 551 – 606

    Google Scholar 

  646. Gautschy A., Saio H., Harzenmoser H. (1998). “How to drive roAp stars”, Monthly Notices of the Royal Astronomical Society,301, 31 – 41

    Google Scholar 

  647. Gautschy A., Althaus L. G., Saio H. (2005). “On the excitation of PG 1159-type pulsations”, Astronomy and Astrophysics,438, 1013 – 1020

    Google Scholar 

  648. Gehmeyr M. (1993). “On nonlinear radial oscillations in convective RR Lyrae stars. III. A full-amplitude investigation of the red edge”, Astrophysical Journal,412, 341 – 350

    Google Scholar 

  649. Gehmeyr M., Winkler K.-H. A. (1992). “On a new one-dimensional, time-dependent model for turbulence and convection. I. A basic discussion of the mathematical model”, Astronomy and Astrophysics,253, 92 – 100

    Google Scholar 

  650. Gelly B., Grec G., Fossat E. (1986). “Evidence for global pressure oscillations in Procyon and α Centauri”, Astronomy and Astrophysics, 164, 383 – 394

    Google Scholar 

  651. Gelly B., Lazrek M., Grec G., Ayad A., Schmider F. X., Renaud C., Salabert C., Fossat E. (2002). “Solar p-modes from 1979 days of the GOLF experiment”, Astronomy and Astrophysics,394, 285 – 297

    Google Scholar 

  652. Giclas H. L., Burnham R., Thomas N. G. (1965). “A list of white dwarf suspects I : special objects of small proper motion from the Lowell survey”, Lowell Observatory Bulletin,6, 155 – 164

    Google Scholar 

  653. Gies D. R., Kullavanijaya A. (1988). “The line profile variations of Epsilon Persei. I - Evidence for multimode nonradial pulsations”, Astrophysical Journal,326, 813 – 831

    Google Scholar 

  654. Gilman P. A., Howe R. (2003). “Meridional motion and the slope of isorotation contours”, In Proc. SOHO 12 / GONG+ 2002. Local and Global Helioseismology: The Present and Future, Ed. A. Wilson, ESA SP-517, ESA Publications Division, Noordwijk, The Netherlands, 283 – 285

    Google Scholar 

  655. Gilman P. A., Miller J. 1986, “Nonlinear convection of a compressible fluid in a rotating spherical shell”, Astrophysical Journal Supplement Series,61, 585 – 608

    Google Scholar 

  656. Gilman P. A., Morrow C. A., DeLuca E. E. (1989). “Angular momentum transport and dynamo action in the Sun: implications of recent oscillation measurements”, Astrophysical Journal,338, 528 – 537

    Google Scholar 

  657. Gillet D., Burki G., Duquennoy A. (1990). “The pulsation of the photosphere of the RV Tauri stars - AC Herculis and R Scuti”, Astronomy and Astrophysics,237, 159 – 168

    Google Scholar 

  658. Gilliland R. L., Brown T. M., Kjeldsen H., McCarthy J. K., Peri M. L., Belmonte J. A., Vidal I., Cram L. E., Palmer J., Frandsen S., Parthasarathy M., Petro L., Schneider H., Stetson P. B., Weiss W. W. (1993). “A search for solar-like oscillations in the stars of M67 with CCD ensemble photometry on a network of 4 M telescopes”, Astronomical Journal,106, 2441 – 2476

    Google Scholar 

  659. Gilliland R. L., Bono G., Edmonds P. D., Caputo F., Cassisi S., Petro L. D., Saha A., Shara M. M. (1998). “Oscillating Blue Stragglers in the Core of 47 Tucanae”, Astrophysical Journal,507, 818 – 845

    Google Scholar 

  660. Girard P., Köppen J., Acker A. (2007). “Chemical compositions and plasma parameters of planetary nebulae with Wolf-Rayet and wels type central stars”, Astronomy and Astrophysics,463, 265 – 274

    Google Scholar 

  661. Gizon L. (2004). “Helioseismology of time-varying flows through the solar cycle”, Solar Physics,224, 217 – 228

    Google Scholar 

  662. Gizon L., Birch A. C. (2005). “Local helioseismology”, Living Reviews in Solar Physics,2, 6. URL (cited on 14/10/06):http://www.livingreviews.org/lrsp-2005-6

    Google Scholar 

  663. Gizon L., Solanki S. (2003). “Determining the inclination of the rotation axis of a Sun-like star”, Astrophysical Journal, 589, 1009 – 1019

    Google Scholar 

  664. Gizon L., Solanki S. (2004). “Measuring stellar differential rotation with asteroseismology”, Solar Physics, 220, 169 – 184

    Google Scholar 

  665. Glatzel W., Gautschy A. (1992). “The treatment of highly non-adiabatic, non-radial pulsations by application of the Riccati method to the example of hydrogen-deficient carbon stars”, Monthly Notices of the Royal Astronomical Society,256, 209 – 218

    Google Scholar 

  666. Glatzel W., Kiriakidis M., Chernigovskij S., Fricke K. J. (1999). “The non-linear evolution of strange-mode instabilities”, Monthly Notices of the Royal Astronomical Society,303, 116 – 124

    Google Scholar 

  667. Glatzmaier G. (1985). “Numerical simulations of stellar convective dynamos. II. Field propagation in the convection zone”, Astrophysical Journal,291, 300 – 307

    Google Scholar 

  668. Godart M., Dupret M.-A., Noels A. (2008). “Is HD 163899 really a supergiant star?”, Communications in Asteroseismology,157, 311 – 312

    Google Scholar 

  669. Gold T. (1969). “Rotating Neutron Stars and the Nature of Pulsars”, Nature,221, 25 – 27

    Google Scholar 

  670. Goldreich P., Keeley D. A. (1977). “Solar seismology. II. The stochastic excitation of the solar p-modes by turbulent convection”, Astrophysical Journal,212, 243 – 251

    Google Scholar 

  671. Goldreich P., Wu Y. (1999). “Gravity modes in ZZ Ceti stars. I. Quasi-adiabatic analysis of overstability”, Astrophysical Journal,511, 904 – 915

    Google Scholar 

  672. Goldreich P., Murray N., Willette G., Kumar P. (1991). “Implications of solar p-mode frequency shifts”, Astrophysical Journal,370, 752 – 762

    Google Scholar 

  673. Goldreich P., Murray N., Kumar P. (1994). “Excitation of solar p-modes”, Astrophysical Journal,424, 466 – 479

    Google Scholar 

  674. Goldreich P., Lai D., Sahrling M. (1997). “Globally asymmetric supernova”, Unsolved Problems in Astrophysics, 269 – 280

    Google Scholar 

  675. Gonczi G. (1981). “On local theories of time dependent convection in the stellar pulsation problem”, Astronomy and Astrophysics,96, 138 – 141

    Google Scholar 

  676. Gong Z., Däppen W., Zejda L. (2001). “MHD equation of state with relativistic electrons”, Astrophysical Journal,546, 1178 – 1182

    Google Scholar 

  677. Goode P. R., Dziembowski W. A., Korzennik S. G., Rhodes E. J. (1991). “What we know about the Sun’s internal rotation from solar oscillations”, Astrophysical Journal,367, 649 – 657

    Google Scholar 

  678. Goosens M., Lampens P., de Maerschalck D., Schrooten M. (1984). “Light variability of Sigma Scorpii”, Astronomy and Astrophysics,140, 223 – 229

    Google Scholar 

  679. Górny S. K., Acker A., Stasińska G., Stenholm B., Tylenda R. (1995). “[Wolf-Rayet]-type central stars of planetary nebulae”, In Proc. IAU Symposium 163: Wolf-Rayet Stars: Binaries; Colliding Winds; Evolution, Eds K. A. van der Hucht, P. M. Williams, Kluwer Academic Publishers, Dordrecht, 163, 85

    Google Scholar 

  680. Górny S. K., Stasińska G., Escudero A. V., Costa R. D. D. (2004). “The populations of planetary nebulae in the direction of the Galactic bulge. Chemical abundances and Wolf-Rayet central stars”, Astronomy and Astrophysics,427, 231 – 244

    Google Scholar 

  681. Gough D. O., 1977a, “Mixing-length theory for pulsating stars”, Astrophysical Journal,214, 196 – 213

    Google Scholar 

  682. Gough D. O., 1977b, “Random remarks on solar hydrodynamics”, Proc. IAU Colloq. No. 36: The energy balance and hydrodynamics of the solar chromosphere and corona, Eds R. M. Bonnet, P. Delache, G. de Bussac, Clairmont-Ferrand, 3 – 36

    Google Scholar 

  683. Gough D. O. (1981). “A new measure of the solar rotation”, Monthly Notices of the Royal Astronomical Society, 196, 731 – 745

    Google Scholar 

  684. Gough D. O., 1984a, “On the rotation of the Sun”, Phil. Trans. R. Soc. London, Ser. A,313, 27 – 38

    Google Scholar 

  685. Gough D. O., 1984b, “Towards a solar model”, Memorie della Societa Astronomica Italiana, 55, 13 – 35

    Google Scholar 

  686. Gough D. O., 1985a, “Theory of solar oscillations”, Future missions in solar, heliospheric and space plasma physics, Eds E. Rolfe, B. Battrick, ESA SP-235, ESTEC, Noordwijk, 183 – 197

    Google Scholar 

  687. Gough D. O., 1985b, “Inverting helioseismic data”, Solar Physics,100, 65 – 99

    Google Scholar 

  688. Gough D. O., 1986a, “EBK quantization of stellar waves”, In Hydrodynamic and magnetohydrodynamic problems in the Sun and stars, Ed. Y. Osaki, University of Tokyo Press, 117 – 143

    Google Scholar 

  689. Gough D. O., 1986b, “Asymptotic sound-speed inversions”, In Seismology of the Sun and the distant Stars, Ed. D. O. Gough, Reidel, Dordrecht, 125 – 140

    Google Scholar 

  690. Gough D. O. (1987). “Seismological measurement of stellar ages”, Nature, 326, 257 – 259

    Google Scholar 

  691. Gough D. O., 1990a, “Comments on helioseismic inference”, Progress of seismology of the sun and stars, In Lecture Notes in Physics, vol. 367, 283 – 318, Eds Y. Osaki, H. Shibahashi, Springer, Berlin

    Google Scholar 

  692. Gough D. O., 1990b, “On possible origins of relatively short-term variations in solar structure”, Phil. Trans. R. Soc. London, Ser. A,330, 627 – 640

    Google Scholar 

  693. Gough D. O. (1993). “Course 7. Linear adiabatic stellar pulsation”, In Astrophysical fluid dynamics, Les Houches Session XLVII, Eds J.-P. Zahn, J. Zinn-Justin, Elsevier, Amsterdam, 399 – 560

    Google Scholar 

  694. Gough D. O. (2001). “Lessons learned from solar oscillations”, In Astrophysical Ages and Time Scales, Eds von Hippel, T., Simpson, C., Manset, N., Astronomical Society of the Pacific Conference Series, 245, San Francisco, 31 – 43

    Google Scholar 

  695. Gough D. O., 2002a, “Helioseismology: some current issues concerning model calibration”, In Proc. 1st Eddington Workshop: ‘Stellar structure and habitable planet finding’, Eds Favata, F., Roxburgh, I. W., Galadí-Enríquez, D., ESA SP-485, ESA Publications Division, Noordwijk, The Netherlands, 65 – 73

    Google Scholar 

  696. Gough D. O., 2002b, “How is solar activity influencing the structure of the Sun?”, In Proc. SOHO 11 Symposium, ‘From solar Min to Max: half a solar cycle with SOHO’, ESA SP-508, ESA Publications Division, Noordwijk, The Netherlands, 577 – 591

    Google Scholar 

  697. Gough D. (2004). “The power of helioseismology to address issues of fundamental physics”, In Equation-of-State and Phase-Transition Issues in Models of Ordinary Astrophysical Matter, Eds V. Čelebonović, W. Däppen, D. Gough, AIP Conf. Proc. Vol. 731, AIP, Melville, New York, 119 – 138

    Google Scholar 

  698. Gough D. O. (2005). in The Roger Taylor Memorial Lectures, A&G, special issue, Royal Astronomical Society (London), 16 – 25

    Google Scholar 

  699. Gough D. O. (2007). “An elementary introduction to the JWKB theory”, Astronomische Nachrichten,328, 273 – 285

    Google Scholar 

  700. Gough D. O., Kosovichev A. G., 1993a, “Initial asteroseismic inversions”, In Proc. IAU Colloq. 137: Inside the stars, Eds A. Baglin, W. W. Weiss, Astronomical Society of the Pacific Conference Series, San Francisco, 40, 541 – 543

    Google Scholar 

  701. Gough D. O., Kosovichev A. G., 1993b, “Seismic analysis of stellar p-mode spectra”, In Proc. GONG 1992: Seismic investigation of the Sun and stars, Ed. T. M. Brown, Astronomical Society of the Pacific Conference Series, San Francisco, 42, 351 – 354

    Google Scholar 

  702. Gough D. O., McIntyre M. E. (1998). “Inevitability of a magnetic field in the Sun’s radiative interior”, Nature,394, 755 – 757

    Google Scholar 

  703. Gough D. O., Novotny E. (1990). “Sensitivity of solar eigenfrequencies to the age of the Sun”, Solar Physics, 128, 143 – 160

    Google Scholar 

  704. Gough D. O., Thompson M. J. (1988). “On the implications of the symmetric component of the frequency splitting reported by Duvall, Harvey and Pomerantz”, Proc. IAU Symposium No 123, Advances in helio- and asteroseismology, Eds J. Christensen-Dalsgaard, S. Frandsen, Reidel, Dordrecht, 175 – 180

    Google Scholar 

  705. Gough D. O., Thompson M. J. (1990). “The effect of rotation and a buried magnetic field on stellar oscillations”, Monthly Notices of the Royal Astronomical Society,242, 25 – 55

    Google Scholar 

  706. Gough D. O., Thompson M. J. (1991). “The inversion problem”, In Solar interior and atmosphere, Eds A. N. Cox, W. C. Livingston, M. Matthews, Space Science Series, University of Arizona Press, 519 – 561

    Google Scholar 

  707. Gough D. O., Vorontsov S. V. (1995). “Seismology of the solar envelope: measuring the acoustic phase shift generated in the outer layers”, Monthly Notices of the Royal Astronomical Society,273, 573 – 582

    Google Scholar 

  708. Gough D. O., Kosovichev A. G., Toomre J., Anderson E. R., Antia H. M., Basu S., Chaboyer B., Chitre S. M., Christensen-Dalsgaard J., Dziembowski W. A., Eff-Darwich A., Elliott J. R., Giles P. M., Goode P. R., Guzik J. A., Harvey J. W., Hill F., Leibacher J. W., Monteiro M. J. P. F. G., Richard O., Sekii T., Shibahashi H., Takata M., Thompson M. J., Vauclair S., Vorontsov S. V. (1996). “The seismic structure of the Sun”, Science,272, 1296 – 1300

    Google Scholar 

  709. Goupil M. J., Dziembowski W. A., Fontaine G. (1998). “On Some Observational Consequences of Nonlinearities in Stellar Pulsations”, Baltic Astronomy,7, 21 – 41

    Google Scholar 

  710. Goupil M.-J., Dziembowski W. A., Pamyatnykh A. A., Talon S. (2000). “Rotational Splitting of δ Scuti Stars”, In Delta Scuti and Related Stars, Eds M. Breger, M. Montgomery, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 210, 267 – 285

    Google Scholar 

  711. Goupil M. J., Samadi R., Lochard J., Dziembowski, W. A., Pamyatnykh A. (2004). “Inferring information about rotation from stellar oscillations”, In Proc. 2nd Eddington workshop, “Stellar structure and habitable planet finding”, ESA SP-538, Eds F. Favata, S. Aigrain, ESA Publications Division, Noordwijk, The Netherlands, 133 – 140

    Google Scholar 

  712. Graham-Smith F. (2003). “The radio emission from pulsars”, Reports of Progress in Physics,66, 173 – 238

    Google Scholar 

  713. Gray D. F. (1997). “Absence of a planetary signature in the spectra of the star 51 Pegasi”, Nature,385, 795 – 796

    Google Scholar 

  714. Gray D. F. (2005). The Observation and Analysis of Stellar Photospheres, 3rd Edition, Cambridge University Press

    Google Scholar 

  715. Grec G., Fossat E., Pomerantz M. (1980). “Solar oscillations: full disk observations from the geographic South Pole”, Nature,288, 541 – 544

    Google Scholar 

  716. Grec G., Fossat E., Pomerantz M. (1983). “Full-disk observations of solar oscillations from the geographic South Pole: latest results”, Solar Physics, 82, 55 – 66

    Google Scholar 

  717. Green R. F. (1977). A complete sample of white dwarfs, hot subdwarfs, and quasars, PhD Dissertation, California Institute of Technology, Pasadena, USA

    Google Scholar 

  718. Green E. M., Fontaine G., Reed M. D., Callerame K., Seitenzahl I. R., White B. A., Hyde E. A., Østensen R., Cordes O., Brassard P., Falter S., Jeffery E. J., Dreizler S., Schuh S. L., Giovanni M., Edelmann H., Rigby J., Bronowska A. (2003). “Discovery of A New Class of Pulsating Stars: Gravity-Mode Pulsators among Subdwarf B Stars”, Astrophysical Journal,583, L31 – L34

    Google Scholar 

  719. Grevesse N., Noels A. (1993). “Cosmic abundances of the elements”, In Origin and Evolution of the Elements, Eds N. Prantzos, E. Vangioni-Flam, M. Casse, Cambridge University Press, 15 – 25

    Google Scholar 

  720. Grevesse N., Sauval A. J. (1998). “Standard solar composition”, Proc. ISSI Workshop on Solar Composition and its Evolution – from Core to Corona, Eds C. Fröhlich, M. C. E. Huber, S. Solanki, R. von Steiger, Space Science Reviews, 85, 161 – 174, Kluwer, Dordrecht

    Google Scholar 

  721. Grigahcène A., Dupret M.-A., Gabriel M., Garrido R., Scuflaire R. (2005). “Convection-pulsation coupling. I. A mixing-length perturbative theory”, Astronomy and Astrophysics,434, 1055 – 1062

    Google Scholar 

  722. Groenewegen M. A. T. (2004). “Long Period Variables in the Magellanic Clouds: OGLE + 2 MASS + DENIS”, Astronomy and Astrophysics,425, 595 – 613

    Google Scholar 

  723. Grundahl F., Kjeldsen H., Frandsen S., Andersen M., Bedding T., Arentoft T., Christensen-Dalsgaard J. (2006). “SONG: Stellar Oscillations Network Group. A global network of small telescopes for asteroseismology and planet searches”, Memorie della Societa Astronomica Italiana,77, 458

    Google Scholar 

  724. Guenther D. B. (1991). “The p-mode oscillation spectra of an evolving 1M sun-like star”, Astrophysical Journal, 375, 352 – 365

    Google Scholar 

  725. Guenther, D. B. (2004). “Quantitative analysis of the oscillation spectrum of η Bootis”, Astrophysical Journal, 612, 454 – 462

    Google Scholar 

  726. Guenther, D. B., Brown, K. I. T. (2004). “Matching stellar models to oscillation data”, Astrophysical Journal, 600, 419 – 434

    Google Scholar 

  727. Guenther, D. B., Demarque, P. (1996). “Seismology of η Bootis”, Astrophysical Journal, 456, 798 – 810

    Google Scholar 

  728. Guenther D. B., Demarque P. (2000). “α Centauri AB”, Astrophysical Journal, 531, 503 – 520

    Google Scholar 

  729. Guenther, D. B., Demarque, P., Kim, Y.-C., Pinsonneault, M. H. (1992). “Standard solar model”, Astrophysical Journal, 387, 372 – 393

    Google Scholar 

  730. Guenther D. B., Demarque P., Buzasi D., Catanzarite J., Laher R., Conrow T., Kreidl T. (2000). “Evolutionary Model and Oscillation Frequencies for α Ursae Majoris: A Comparison with Observations”, Astrophysical Journal,530, L45 – L48

    Google Scholar 

  731. Guenther, D. B., Kallinger, T., Reegen, P., Weiss, W. W., Matthews, J. M., Kuschnig, R., Marchenko, S., Moffat, A. F. J., Rucinski, S. M., Sasselov, D., Walker, G. A. H. (2005). “Stellar model analysis of the oscillation spectrum of η Bootis obtained from MOST”, Astrophysical Journal, 635, 547 – 559

    Google Scholar 

  732. Guzik J. A. (2006). “Reconciling the revised solar abundances with helioseismic constraints”, In Proc. SOHO 18 / GONG 2006 / HELAS I Conf.: Beyond the spherical Sun, Ed. K. Fletcher, ESA SP-624, ESA Publications Division, Noordwijk, The Netherlands

    Google Scholar 

  733. Guzik J. A., Kaye A. B., Bradley P. A., Cox A. N., Neuforge C. (2000). “Driving the gravity-mode pulsations in γ Doradus variables”, Astrophysical Journal,542, L57 – L60

    Google Scholar 

  734. Guzik J. A., Cox A. N., Despain K. M. (2005). “Pulsation-Driven Mass Loss in Luminous Blue Variables”, In The Fate of the Most Massive Stars, Eds R. Humphreys, K. Stanek, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 332, 263

    Google Scholar 

  735. Hadrava P. (1995). “Orbital elements of multiple spectroscopic stars”, Astronomy and Astrophysics Supplement Series,114, 393 – 396

    Google Scholar 

  736. Hadrava P. (1997). “Relative line photometry of eclipsing binaries”, Astronomy and Astrophysics Supplement Series,122, 581 – 584

    Google Scholar 

  737. Hadrava P. (2001). “The Method of Spectra Disentangling and Its Links to Doppler Tomography”, In Astrotomography, Indirect Imaging Methods in Observational Astronomy, Eds H.M.J. Boffin, D. Steeghs, J. Cuypers, Lecture Notes in Physics, 573, 261

    Google Scholar 

  738. Hadrava P., 2004a, “Disentangling of spectra of multiple stars”, In Spectroscopically and Spatially Resolving the Components of the Close Binary Stars, Eds R. W. Hilditch, H. Hensberge, K. Pavlovski, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 318, 86 – 94

    Google Scholar 

  739. Hadrava P., 2004b, “FOTEL 4 - User’s guide”, Publications of the Astronomical Institute of the Czechoslovak Academy of Sciences,92, 1 – 14

    Google Scholar 

  740. Hadrava P. (2007). “New Trends in Disentangling the Spectra of Multiple Stars”, In Proc. IAU Symposium: Binary Stars as Critical Tools & Tests in Contemporary Astrophysics, Eds W.I. Hartkopf, E.F. Guinan, P. Harmanec, Cambridge University Press, 240, 503 – 508

    Google Scholar 

  741. Hadrava P. (2006). “Disentangling telluric lines in stellar spectra”, Astronomy and Astrophysics,448, 1149 – 1152

    Google Scholar 

  742. Han Z., Podsiadlowski Ph., Maxted P. F. L., Marsh T. R., Ivanova N. (2002). “The origin of subdwarf B stars – I. The formation channels”, Monthly Notices of the Royal Astronomical Society,336, 449 – 466

    Google Scholar 

  743. Han Z., Podsiadlowski Ph., Maxted P. F. L., Marsh T. R. (2003). “The origin of subdwarf B stars – II”, Monthly Notices of the Royal Astronomical Society,341, 669 – 691

    Google Scholar 

  744. Handler G. (1995). “Variable “COOL” Central Stars of Planetary Nebulae”, Baltic Astronomy,4, 357 – 359

    Google Scholar 

  745. Handler G., 1999a, “The domain of γ Doradus variables in the Hertzsprung-Russell diagram”, Monthly Notices of the Royal Astronomical Society,309, L19 – L23

    Google Scholar 

  746. Handler G., 1999b, “Variable central stars of young Planetary Nebulae. A photometric study of the central star of M 2-54”, Astronomy and Astrophysics Supplement Series,135, 493 – 498

    Google Scholar 

  747. Handler G., 2003a, “The ZZ Leporis stars: variable central stars of young planetary nebulae”, In Interplay of Periodic, Cyclic and Stochastic Variability in Selected Areas of the H-R Diagram, Ed. C. Sterken, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 292, 183

    Google Scholar 

  748. Handler G., 2003b, “Merging Data from Large and Small Telescopes – Good or Bad? And: How Useful is the Application of Statistical Weights to Time-Series Photometric Measurements?”, Baltic Astronomy,12, 253 – 270

    Google Scholar 

  749. Handler G., Shobbrook R. R. (2002). “On the relationship between the δ Scuti and γ Doradus pulsators”, Monthly Notices of the Royal Astronomical Society,333, 251 – 262

    Google Scholar 

  750. Handler G., Mendez R. H., Medupe R., Costero R., Birch P. V., Alvarez M., Sullivan D. J., Kurtz D. W., Herrero A., Guerrero M. A., Ciardullo R., Breger M. (1997). “Variable central stars of young planetary nebulae. I. Photometric multisite observations of IC 418”, Astronomy and Astrophysics,320, 125 – 135

    Google Scholar 

  751. Handler G., Pamyatnykh A. A., Zima W., Sullivan D. J., Audard N., Nitta A. (1998). “On the frequency and amplitude variations of the delta Scuti star CD-24 7599 (=XX Pyx)”, Monthly Notices of the Royal Astronomical Society,295, 377 – 385

    Google Scholar 

  752. Handler G., Arentoft T., Shobbrook R. R., Wood M. A., Crause L. A., Crake P., Podmore F., Habanyama A., Oswalt T., Birch P. V., Lowe G., Sterken C., Meintjes P., Brink J., Claver C. F., Medupe R., Guzik J. A., Beach T. E., Martinez P., Leibowitz E. M., Ibbetson P. A., Smith T., Ashoka B. N., Raj N. E., Kurtz D. W., Balona L. A., O’Donoghue D., Costa J. E. S., Breger M. (2000). “Delta Scuti Network observations of XX Pyx: detection of 22 pulsation modes and of short-term amplitude and frequency variations”, Monthly Notices of the Royal Astronomical Society,318, 511 – 525

    Google Scholar 

  753. Handler G., Balona L. A., Shobbrook R. R., Koen C., Bruch A., Romero-Colmenero E., Pamyatnykh A. A., Willems B., Eyer L., James D. J., Maas T. (2002). “Discovery and analysis of p-mode and g-mode oscillations in the A-type primary of the eccentric binary HD 209295”, Monthly Notices of the Royal Astronomical Society,333, 262 – 279

    Google Scholar 

  754. Handler G., O’Donoghue D., Müller M., Solheim J.-E., Gonzalez-Perez J. M., Johannessen F., Paparo M., Szeidl B., Viraghalmy G., Silvotti R., Vauclair G., Dolez N., Pallier E., Chevreton M., Kurtz D. W., Bromage G. E., Cunha M. S., Østensen R., Fraga L., Kanaan A., Amorim A., Giovannini O., Kepler S. O., da Costa A. F. M., Anderson R. F., Wood M. A., Silvestri N., Klumpe E. W., Carlton R. F., Miller R. H., McFarland J. P., Grauer A. D., Kawaler S. D., Riddle R. L., Reed M. D., Nather R. E., Winget D. E., Hill J. A., Metcalfe T. S., Mukadam A. S., Kilic M., Watson T. K., Kleinman S. J., Nitta A., Guzik J. A., Bradley P. A., Sekiguchi K., Sullivan D. J., Sullivan T., Shobbrook R. R., Jiang X., Birch P. V., Ashoka B. N., Seetha S., Girish V., Joshi S., Dorokhova T. N., Dorokhov N. I., Akan M. C., Meištas E. G., Janulis R., Kalytis R., Ališauskas D., Anguma S. K., Kalebwe P. C., Moskalik P., Ogloza W., Stachowski G., Pajdosz G., Zola S., 2003a, “Amplitude and frequency variability of the pulsating DB white dwarf stars KUV 05134+2605 and PG 1654+160 observed with the Whole Earth Telescope”, Monthly Notices of the Royal Astronomical Society,340, 1031 – 1038

    Google Scholar 

  755. Handler G., Shobbrook R. R., Vuthela F. F., Balona L. A., Rodler F., Tshenye T., 2003b, “Asteroseismological studies of three β Cephei stars: IL Vel, V433 Car and KZ Mus”, Monthly Notices of the Royal Astronomical Society,341, 1005 – 1019

    Google Scholar 

  756. Handler G., Aerts C., and an International Team of 50 Astronomers (2004). “Asteroseismology of the β Cep star ν Eri: initial results”, In IAU Colloquium 193: Variable Stars in the Local Group, Eds D. W. Kurtz, K. R. Pollard, Astronomical Society of the Pacific Conference Series, San Francisco, 310, 221 – 224

    Google Scholar 

  757. Handler G., Shobbrook R. R., Mokgwetsi T. (2005). “An asteroseismic study of the β Cephei star θ Ophiuchi: photometric results”, Monthly Notices of the Royal Astronomical Society,362, 612 – 618

    Google Scholar 

  758. Handler G., Jerzykiewicz M., Rodríguez E., Uytterhoeven K., Amado P. J., Dorokhova T. N., Dorokhov N. I., Poretti E., Sareyan J.-P., Parrao L., Lorenz D., Zsuffa D., Drummond R., Daszyńska-Daszkiewicz J., Verhoelst T., De Ridder J., Acke B., Bourge P.-O., Movchan A. I., Garrido R., Paparó M., Sahin T., Antoci V., Udovichenko S. N., Csorba K., Crowe R., Berkey B., Stewart S., Terry D., Mkrtichian D. E., Aerts C. (2006). “Asteroseismology of the β Cephei star 12 (DD) Lacertae: photometric observations, pulsational frequency analysis and mode identification”, Monthly Notices of the Royal Astronomical Society,365, 327 – 338

    Google Scholar 

  759. Hansen C. J., Cox J. P., van Horn H. M. (1977). “The effects of differential rotation on the splitting of nonradial modes of stellar oscillation”, Astrophysical Journal, 217, 151 – 159

    Google Scholar 

  760. Hansen C. J., Cox J. P., Carroll B. W. (1978). “The quasi-adiabatic analysis of nonradial modes of stellar oscillation in the presence of slow rotation”, Astrophysical Journal,226, 210 – 221

    Google Scholar 

  761. Hansen C. J., Kawaler S. D., Trimble V. (2004). Stellar interiors. Physical principles, structure, and evolution, second edition, Springer, New York

    Google Scholar 

  762. Hansen P. C. (1990). “Truncated singular value decomposition solutions to discrete ill-posed problems with ill-determined numerical rank”, SIAM J. Sci. Stat. Comp.,11, 503 – 518

    Google Scholar 

  763. Hao J. (1998). “Line Profile Analysis of Nonradial Pulsation Modes Based on Doppler Imaging”, Astrophysical Journal,500, 440 – 448

    Google Scholar 

  764. Hardie, R. H. (1964). “Photoelectric Reductions”, In Astronomical Techniques, Ed. W. A. Hiltner, University of Chicago Press, 184, 178

    Google Scholar 

  765. Harmanec P., Uytterhoeven K., Aerts C. (2004). “Disentangling component spectra of κ Sco, a spectroscopic binary with a pulsating primary. I. Improved physical elements and analysis of periodic rapid variations of scalar quantities”, Astronomy and Astrophysics,422, 1013 – 1021

    Google Scholar 

  766. Harrington, R. S., Dahn, C. C., Kallarakal, V. V., Guetter, H. H., Riepe, B. Y., Walker, R. L., Pier, J. R., Vrba, F. J., Luginbuhl, C. B., Harris, H. C., Ables, H. D. (1993). “U. S. Naval Observatory photographic parallaxes. List IX”, Astronomical Journal, 105, 1571 – 1580

    Google Scholar 

  767. Harris H. C., Liebert J., Kleinman S. J., Nitta A., Anderson S. F., Knapp G. R., Krzesiński J., Schmidt G., Strauss M. A., Vanden Berk D., Eisenstein D., Hawley S., Margon B., Munn J. A., Silvestri N. M., Smith J. A., Szkody P., Collinge M. J., Dahn C. C., Fan X., Hall P. B., Schneider D. P., Brinkmann J., Burles S., Gunn J. E., Hennessy G. S., Hindsley R., Ivezić Z., Kent S., Lamb D. Q., Lupton R. H., Nichol R. C., Pier J. R., Schlegel D. J., SubbaRao M., Uomoto A., Yanny B., York D. G. (2003). “An Initial Survey of White Dwarfs in the Sloan Digital Sky Survey”, Astronomical Journal,126, 1023 – 1040

    Google Scholar 

  768. Harvey J. W. (1988). “Techniques for observing stellar oscillations”, In Proc. IAU Symposium No 123, Advances in helio- and asteroseismology, 497 – 511, Eds J. Christensen-Dalsgaard, S. Frandsen, Reidel, Dordrecht

    Google Scholar 

  769. Harvey J. W., Hill F., Hubbard R. P., Kennedy J. R., Leibacher J. W., Pintar J. A., Gilman P. A., Noyes R. W., Title A. M., Toomre J., Ulrich R. K., Bhatnagar A., Kennewell J. A., Marquette W., Partrón J., Saá O., Yasukawa E. (1996). “The Global Oscillation Network Group (GONG) project”, Science,272, 1284 – 1286

    Google Scholar 

  770. Harvey, J., Tucker, R., Britanik, L. (1998). “High resolution upgrade of the GONG instruments”, In Structure and dynamics of the interior of the Sun and Sun-like stars; Proc. SOHO 6/GONG 98 Workshop, Eds S. G. Korzennik, A. Wilson, ESA SP-418, ESA Publications Division, Noordwijk, The Netherlands, 209 – 211

    Google Scholar 

  771. Hatzes A. P., Cochran W. D. (1994). “The radial velocity variability of the K giant Beta Ophiuchi. 1: The detection of low-amplitude, short-period pulsations”, Astrophysical Journal,432, 763 – 769

    Google Scholar 

  772. Hatzes A. P., Kuerster M. (1994). “A search for rapid radial velocity variations in α Circini”, Astronomy and Astrophysics,285, 454 – 458

    Google Scholar 

  773. Hatzes A. P., Mkrtichian D. E. (2004). “Radial velocity variations in pulsating Ap stars - III. The discovery of 16.21-min oscillations in β CrB”, Monthly Notices of the Royal Astronomical Society,351, 663 – 666

    Google Scholar 

  774. Hatzes A. P., Mkrtichian D. E. (2005). “Radial velocity variations in pulsating Ap stars. V. 10 Aquilae”, Astronomy and Astrophysics,430, 279 – 286

    Google Scholar 

  775. Hawley S. L., Covey K. R., Knapp G. R., Golimowski D. A., Fan X., Anderson S. F., Gunn J. E., Harris H. C., Ivezić Ž., Long G. M., Lupton R. H., McGehee P. M., Narayanan V., Peng E., Schlegel D., Schneider D. P., Spahn E. Y., Strauss M. A., Szkody P., Tsvetanov Z., Walkowicz L. M., Brinkmann J., Harvanek M., Hennessy G. S., Kleinman S. J., Krzesinski J., Long D., Neilsen E. H., Newman P. R., Nitta A., Snedden S. A., York D. G. (2002). “Characterization of M, L, and T Dwarfs in the Sloan Digital Sky Survey”, Astronomical Journal,123, 3409 – 3427

    Google Scholar 

  776. Haxton W. C., Parker P. D., Rolfs C. E. (2006). “Solar hydrogen burning and neutrinos”, Nuclear Physics A,777, 226 – 253

    Google Scholar 

  777. Heber, U., Jeffery, C. S., Napiwotski, R. (Eds) (2008). Hot Subdwarf Stars and Related Objects, Astronomical Society of the Pacific Conference Series, San Francisco, 392

    Google Scholar 

  778. Hekker S., Aerts C., De Ridder J., Carrier F. (2006). “Pulsations detected in the line profile variations of red giants. Modelling of line moments, line bisector and line shape”, Astronomy and Astrophysics,458, 931 – 940

    Google Scholar 

  779. Heller C. H., Kawaler S. D. (1988). “Evolutionary period changes in the rapidly oscillating Ap stars”, Astrophysical Journal,329, L43 – L46

    Google Scholar 

  780. Henroteau F. (1922). “The spectroscopic system theta Ophiuchi”, Publications of the Dominion Observatory Ottawa,8, 1 – 10

    Google Scholar 

  781. Henroteau F. (1926). “An international co-operation for the photographic study of Cepheid variables”, Popular Astronomy,34, 493 – 500

    Google Scholar 

  782. Henroteau F. (1927). “The spectroscopic system nu Eridani”, Publications of the Dominion Observatory Ottawa,9, 117 – 126

    Google Scholar 

  783. Henry G. W., Fekel F. C. (2005). “HD 8801: A Unique Single Am Star with γ Doradus and δ Scuti Pulsations”, Astronomical Journal,129, 2026 – 2033

    Google Scholar 

  784. Henry G. W., Fekel F. C., Henry S. M. (2004). “HD 207651: A Triple System with δ Scuti and Ellipsoidal Variations But No γ Doradus Pulsations”, Astronomical Journal,127, 1720 – 1726

    Google Scholar 

  785. Henry G. W., Fekel F. C., Henry S. M. (2005). “Eleven New γ Doradus Stars”, Astronomical Journal,129, 2815 – 2830

    Google Scholar 

  786. Hensberge H., Ilijić S., Torres K. B. V. (2008). “On the separation of component spectra in binary and higher-multiplicity stellar systems: bias progression and spurious patterns”, Astronomy and Astrophysics,482, 1031 – 1051

    Google Scholar 

  787. Herbst W., Shevchenko V. S. (1999). “A Photometric Catalog of Herbig Ae/Be Stars and Discussion of the Nature and Cause of the Variations of UX Orionis Stars”, Astronomical Journal,118, 1043 – 1060

    Google Scholar 

  788. Hertzsprung E. (1914). “Über die räumliche Verteilung der Veränderlichen vom δ Cephei-Typus”, Astronomische Nachrichten,196, 201 – 205

    Google Scholar 

  789. Hewish A., Bell S. J., Pilkington J. D., Scott P. F., Collins R. A. (1968). “Observation of a Rapidly Pulsating Radio Source”, Nature,217, 709 – 711

    Google Scholar 

  790. Heydari-Malayeri M., Stee P., Zahn J.-P. (Eds) (2004). Evolution of Massive Stars, Mass Loss and Winds, European Astronomical Society Publications Series, 13

    Google Scholar 

  791. Heynderickx D. (1992). “A photometric study of Beta Cephei stars. I - Frequency analyses”, Astronomy and Astrophysics Supplement Series,96, 207 – 254

    Google Scholar 

  792. Heynderickx D., Waelkens C., Smeyers P. (1994). “A photometric study of β Cephei stars. II. Determination of the degrees L of pulsation modes”, Astronomy and Astrophysics Supplement Series,105, 447 – 480

    Google Scholar 

  793. Heyl J. S. (2004). “r-Modes on Rapidly Rotating, Relativistic Stars. I. Do Type I Bursts Excite Modes in the Neutron Star Ocean?”, Astrophysical Journal,600, 939 – 945

    Google Scholar 

  794. Hilditch R. W. (2001). An Introduction to Close Binary Stars, Cambridge University Press

    Google Scholar 

  795. Hilditch R. W., Bell S. A., Hill G., Harries T. J. (1998). “Light-curve analysis and eclipse mapping of the contact binaries KQ GEM and V412 HER”, Monthly Notices of the Royal Astronomical Society,296, 100 – 108

    Google Scholar 

  796. Hill F., Stark P. B., Stebbins R. T., Anderson E. R., Antia H. M., Brown T. M., Duvall T. L., Haber D. A., Harvey J. W., Hathaway D. H., Howe R., Hubbard R. P., Jones H. P., Kennedy J. R., Korzennik S. G., Kosovichev A. G., Leibacher J. W., Libbrecht K. G., Pintar J. A., Rhodes E. J., Schou J., Thompson M. J., Tomczyk S., Toner C. G., Toussaint R., Williams W. E. (1996). “The solar acoustic spectrum and eigenmode parameters”, Science,272, 1292 – 1295

    Google Scholar 

  797. Hill F., Anderson E., Howe R., Jefferies S. M., Komm R. W., Toner C. G. (1998). “Estimated mode parameters from the fitting of GONG spectra”, In Structure and dynamics of the interior of the Sun and Sun-like stars; Proc. SOHO 6/GONG 98 Workshop, Eds S. G. Korzennik, A. Wilson, ESA SP-418, ESA Publications Division, Noordwijk, The Netherlands, 231 – 236

    Google Scholar 

  798. Hill H. A., Stebbins R. T., Brown T. M. (1976). “Recent oblateness observations: Data, interpretation and significance for earlier work”, In Atomic Masses and Fundamental Constants,5 Ed. J. H. Sanders, A. H. Wapstra, Plenum Press, 622 – 628

    Google Scholar 

  799. Hill P. W., Kilkenny D., van Breda I. G. (1974). “UBV photometry of southern early-type stars”, Monthly Notices of the Royal Astronomical Society,168, 451 – 462

    Google Scholar 

  800. Hoffleit D., Jaschek C. (1982). The Bright Star Catalogue, 4th Edition, New Haven: Yale University Observatory

    Google Scholar 

  801. Höffner S., Andersen A. C. (2007). “Winds of M- and S-type AGB stars: an unorthodox suggestion for the driving mechanism”, Astronomy and Astrophysics,465, L39 – L42

    Google Scholar 

  802. Högbom J. A. (1974). “Aperture Synthesis with a Non-Regular Distribution of Interferometer Baselines”, Astronomy and Astrophysics Supplement Series,15, 417 – 426

    Google Scholar 

  803. Hony S., Waters L. B. F. M., Tielens A. G. G. M. (2001). “The discovery of the “21” μm and “30” μm emission features in Planetary Nebulae with Wolf-Rayet central stars”, Astronomy and Astrophysics,378, L41 – L44

    Google Scholar 

  804. Horne J. H., Baliunas S. L. (1986). “A prescription for period analysis of unevenly sampled time series”, Astrophysical Journal,302, 757 – 763

    Google Scholar 

  805. Horne K. (1985). “Images of accretion discs. I - The eclipse mapping method”, Monthly Notices of the Royal Astronomical Society,213, 129 – 141

    Google Scholar 

  806. Houdek G. (2000). “Convective effects on p-mode stability in Delta Scuti stars”, In Delta Scuti and related stars, Eds M. Breger, M. H. Montgomery, Astronomical Society of the Pacific Conference Series, San Francisco, 210, 454 – 463

    Google Scholar 

  807. Houdek G. (2006). “Stochastic excitation and damping of solar-type oscillations”, In Proc. SOHO 18 / GONG 2006 / HELAS I Conf.: Beyond the spherical Sun, Ed. K. Fletcher, ESA SP-624, ESA Publications Division, Noordwijk, The Netherlands

    Google Scholar 

  808. Houdek, G. (2007). “Theoretical asteroseismology of solar-like oscillations”, In Proc. Vienna Workshop on the Future of Asteroseismology, eds G. Handler, G. Houdek, Comm. in Asteroseismology, 150, 122 – 130

    Google Scholar 

  809. Houdek G., Gough D. O. (2002). “Modelling pulsation amplitudes of ξ Hydrae”, Monthly Notices of the Royal Astronomical Society,336, L65 – L69

    Google Scholar 

  810. Houdek G., Gough D. O. (2007). “An asteroseismic signature of helium ionization”, Monthly Notices of the Royal Astronomical Society,375, 861 – 880

    Google Scholar 

  811. Houdek G., Gough D. O. (2008). “Progress report on solar age calibration”, In Proc. IAU Symp. 252: The Art of Modelling Stars in the 21stCentury, Eds L. Deng, K. L. Chan, IAU and Cambridge University Press, 149 – 156

    Google Scholar 

  812. Houdek G., Balmforth N. J., Christensen-Dalsgaard J., Gough D. O. (1999). “Amplitudes of stochastically excited oscillations in main-sequence stars”, Astronomy and Astrophysics,351, 582 – 596

    Google Scholar 

  813. Hough S. S. (1898). “On the application of harmonic analysis to the dynamical theory of tides. Part II: On the general integration of Laplace’s dynamical equations”, Phil. Trans. R. Soc., Ser. A, 191, 139 – 185

    Google Scholar 

  814. Howard R., LaBonte B. J. (1980). “The Sun is observed to be a torsional oscillator with a period of 11 years”, Astrophysical Journal,239, L33 – L36

    Google Scholar 

  815. Howarth I. D., Siebert K. W., Hussain G. A. J., Prinja R. K. (1997). “Cross-correlation characteristics of OB stars from IUE spectroscopy”, Monthly Notices of the Royal Astronomical Society,284, 265 – 285

    Google Scholar 

  816. Howe R. (2008). “Helioseismology and the solar cycle”, Advances in Space Research,41, 846 – 854

    Google Scholar 

  817. Howe R. (2009). “Solar interior rotation and its variation”, Living Reviews of Solar Physics, 6, 1. URL (cited on 16/4/09): http://www.livingreviews.org/lrsp-2009-1

    Google Scholar 

  818. Howe R., Christensen-Dalsgaard J., Hill F., Komm R. W., Larsen R. M., Schou J., Thompson M. J., Toomre J., 2000a, “Deeply penetrating banded zonal flows in the solar convection zone”, Astrophysical Journal,533, L163 – L166

    Google Scholar 

  819. Howe R., Christensen-Dalsgaard J., Hill F., Komm R. W., Larsen R. M., Schou J., Thompson M. J., Toomre J., 2000b, “Dynamic variations at the base of the solar convection zone”, Science,287, 2456 – 2460

    Google Scholar 

  820. Howe R., Komm R. W., Hill F. (2002). “Localizing the solar cycle frequency shifts in global p-modes”, Astrophysical Journal,580, 1172 – 1187

    Google Scholar 

  821. Howe R., Christensen-Dalsgaard J., Komm R., Schou J., Thompson M. J. (2005). “Solar convection-zone dynamics, 1995–2004”, Astrophysical Journal,634, 1405 – 1415

    Google Scholar 

  822. Howe R., Rempel M., Christensen-Dalsgaard J., Hill F., Komm R., Larsen R. M., Schou J., Thompson M. J. (2006). “Solar Convection Zone Dynamics: How sensitive are inversions to subtle dynamo features?”, Astrophysical Journal,649, 1155 – 1168

    Google Scholar 

  823. Howe R., Christensen-Dalsgaard J., Hill F., Komm R., Schou J., Thompson M. J., Toomre J. (2007). “Temporal variations in solar rotation at the bottom of the convection zone: the current status”, In Proc. of the Second International Symposium on Space Climate, Eds G. Maris, K. Mursula, I. Usoskin, Advances in Space Research,40, 915 – 918

    Google Scholar 

  824. Howell S. B. (2006). Handbook of CCD astronomy, 2nd edition, Cambridge observing handbooks for research astronomers, 5, Cambridge University Press

    Google Scholar 

  825. Hrudková M., Harmanec P. (2005). “Reliable elimination of telluric lines from stellar spectra”, Astronomy and Astrophysics,437, 765 – 768

    Google Scholar 

  826. Hu H., Nelemans G., Østensen R., Aerts C., Vučković M., Groot P. J. (2007). “An evolutionary study of the pulsating subdwarf B eclipsing binary PG 1336–018 (NY Virginis)”, Astronomy and Astrophysics,473, 569 – 577

    Google Scholar 

  827. Hu H., Dupret M.-A., Aerts C., Nelemans G., Kawaler S. D., Miglio A., Montalban J., Scuflaire R. (2008). “A seismic approach to testing different formation channels of subdwarf B stars”, Astronomy and Astrophysics,490, 243 – 252

    Google Scholar 

  828. Hubrig S., Nesvacil N., Schöller M., North P., Mathys G., Kurtz D. W., Wolff B., Szeifert T., Cunha M. S., Elkin V. G. (2005). “Detection of an extraordinarily large magnetic field in the unique ultra-cool Ap star HD 154708”, Astronomy and Astrophysics, 440, L37 – L40

    Google Scholar 

  829. Hubrig S., Briquet M., Schöller M., De Cat P., Mathys G., Aerts C. (2006). “Discovery of magnetic fields in the β Cephei star ξ1 CMa and in several slowly pulsating B stars”, Monthly Notices of the Royal Astronomical Society,369, L61 – L65

    Google Scholar 

  830. Humphreys R., Stanek K. (Eds) (2005). The Fate of the Most Massive Stars, Astronomical Society of the Pacific Conference Series, San Francisco, 332

    Google Scholar 

  831. Hurley J. R., Tout C. A., Aarseth S. J., Pols O. R. (2001). “Direct N-body modelling of stellar populations: blue stragglers in M67”, Monthly Notices of the Royal Astronomical Society,323, 630 – 650

    Google Scholar 

  832. Hurley J. R., Pols O. R., Aarseth S. J., Tout C. A. (2005). “A complete N-body model of the old open cluster M67”, Monthly Notices of the Royal Astronomical Society, 363, 293 – 314

    Google Scholar 

  833. Hutton R. G., Mendez R. H. (1993). “The central stars of He 2-131 and He 2-138 - Photometric variations”, Astronomy and Astrophysics,267, L8 – L10

    Google Scholar 

  834. Iben I., Livio M. (1993). “Common envelopes in binary star evolution”, Publications of the Astronomical Society of the Pacific,105, 1373 – 1406

    Google Scholar 

  835. Iben I., Mahaffy J. (1976). “On the sun’s acoustical spectrum”, Astrophysical Journal,209, L39 – L43

    Google Scholar 

  836. Iben I. J., Tutukov A. V., Yungelson L. R. (1996). “On the Origin of Hydrogen-deficient Supergiants and Their Relation to R Coronae Borealis Stars and Non-DA White Dwarfs”, Astrophysical Journal,456, 750 – 765

    Google Scholar 

  837. Iglesias C. A., Rogers F. J. (1996). “Updated Opal Opacities”, Astrophysical Journal, 464, 943 – 953

    Google Scholar 

  838. Iglesias C. A., Rogers F. J., Wilson B. G. (1990). “Opacities for classical Cepheid models”, Astrophysical Journal,360, 221 – 226

    Google Scholar 

  839. Iglesias C. A., Rogers F. J., Wilson B. G. (1992). “Spin-orbit interaction effects on the Rosseland mean opacity”, Astrophysical Journal,397, 717 – 728

    Google Scholar 

  840. Ignace R., Gayley K. G. (Eds) (2005). The Nature and Evolution of Disks Around Hot Stars, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 337

    Google Scholar 

  841. Ilijic S. (2004). “Thoughts about disentangling in wavelength and in Fourier-space”, In Spectroscopically and Spatially Resolving the Components of the Close Binary Stars, Eds R. W. Hilditch, H. Hensberge, K. Pavlovski, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 318, 107 – 110

    Google Scholar 

  842. Ilijic S., Hensberge H., Pavlovski K. (2001). “Fourier Disentangling of Composite Spectra”, In Astrotomography, Indirect Imaging Methods in Observational Astronomy, Eds H.M.J. Boffin, D. Steeghs, J. Cuypers, Lecture Notes in Physics, 573, 269

    Google Scholar 

  843. Ilijic S., Hensberge H., Pavlovski K., Freyhammer L. M. (2004). “Obtaining normalised component spectra with FDBinary”, In Spectroscopically and Spatially Resolving the Components of the Close Binary Stars, Eds R. W. Hilditch, H. Hensberge, K. Pavlovski, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 318, 111 – 113

    Google Scholar 

  844. Innis J. L., Isaak G. R., Brazier R. I., Belmonte J. A., Palle P. L., Roca Cortes T., Jones A. R. (1988). “High precision velocity observations of Arcturus using the 7699 Å line of potassium”, In Seismology of the Sun, Sun-like Stars, Eds V. Domingo, E. J. Rolfe, ESA SP-286, ESA Publications Division, Noordwijk, The Netherlands, 569 – 573

    Google Scholar 

  845. Isaak G. R. (1961). “An atomic beam spectrophotometer”, Nature,189, 373 – 374

    Google Scholar 

  846. Israel G. L., Belloni T., Stella L., Rephaeli Y., Gruber D. E., Casella P., Dall’Osso S., Rea N., Persic M., Rothschild R. E. (2005). “The Discovery of Rapid X-Ray Oscillations in the Tail of the SGR 1806-20 Hyperflare”, Astrophysical Journal,628, L53 – L56

    Google Scholar 

  847. Ita Y., Tanabé T., Matsunaga N., Nakajima Y., Nagashima C., Nagayama T., Kato D., Kurita M., Nagata T., Sato S., Tamura M., Nakaya H., Nakada Y., 2004a, “Variable stars in the Magellanic Clouds - II. The data and infrared properties”, Monthly Notices of the Royal Astronomical Society,353, 705 – 712

    Google Scholar 

  848. Ita Y., Tanabé T., Matsunaga N., Nakajima Y., Nagashima C., Nagayama T., Kato D., Kurita M., Nagata T., Sato S., Tamura M., Nakaya H., Nakada Y., 2004b, “Variable stars in the Magellanic Clouds: results from OGLE and SIRIUS”, Monthly Notices of the Royal Astronomical Society,347, 720 – 728

    Google Scholar 

  849. Jackson J. D. (1975). Classical Electrodynamics, 2nd edition, Wiley, New York

    Google Scholar 

  850. Jahn D., Rauch T., Reiff E., Werner K., Kruk J. W., Herwig F. (2007). “High-resolution ultraviolet spectroscopy of PG 1159-035 with HST and FUSE”, Astronomy and Astrophysics,462, 281 – 292

    Google Scholar 

  851. Jain R., Roberts B. (1993). “Do p-mode frequency shifts suggest a hotter chromosphere at solar maximum?”, Astrophysical Journal,414, 898 – 907

    Google Scholar 

  852. Jankov S., Vakili F., Domiciano de Souza A., Jr., Janot-Pacheco E. (2001). “Interferometric-Doppler imaging of stellar surface structure”, Astronomy and Astrophysics,377, 721 – 734

    Google Scholar 

  853. Jankov S., Vakili F., Domiciano de Souza A., Jr., Janot-Pacheco E. (2002). Interferometric-Doppler Imaging of Nonradial Stellar Pulsations, In Radial and Nonradial Pulsations as Probes of Stellar Physics, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 259, 172 – 173

    Google Scholar 

  854. Jankov S., Mathias P., Domiciano de Souza A., Jr., Uytterhoeven K., Aerts C. (2004). “Latitude distribution of nonradial pulsations in rapidly rotating B stars”, In IAU Colloquim 193: Variable Stars in the Local Group, Eds D. W. Kurtz, K. Pollard, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 310, 204

    Google Scholar 

  855. Jefferies S. M., Vorontsov S. V. (2004). “A new way to model the solar oscillation  − ν power spectrum”, Solar Physics,220, 347 – 359

    Google Scholar 

  856. Jefferies S. M., Pomerantz M. A., Duvall T. L., Harvey J. W., Jaksha D. B. (1988). “Helioseismology from the South Pole: comparison of 1987 and 1981 results”, In Seismology of the Sun, Sun-like Stars, Eds V. Domingo, E. J. Rolfe, ESA SP-286, ESA Publications Division, Noordwijk, The Netherlands, 279 – 284

    Google Scholar 

  857. Jefferies S. M., Vorontsov S. V., Giebink C. (2006). “Toward improving the seismic visibility of the solar tachocline”, In Proc. SOHO 18 / GONG 2006 / HELAS I Conf.: Beyond the spherical Sun, Ed. K. Fletcher, ESA SP-624, ESA Publications Division, Noordwijk, The Netherlands

    Google Scholar 

  858. Jeffery C. S. (1996). “Surface properties of extreme helium stars”, In Hydrogen Deficient Stars, Eds C. S. Jeffery, U. Heber, Astronomical Society of the Pacific Conference Series, 96, 152

    Google Scholar 

  859. Jeffery C. S., Heber U. (1992). “The extreme helium star BD-9 deg 4395”, Astronomy and Astrophysics,260, 133 – 150

    Google Scholar 

  860. Jeffery C. S., Saio H. (1999). “Non-adiabatic linear pulsation models for low-mass helium stars”, Monthly Notices of the Royal Astronomical Society,308, 221 – 227

    Google Scholar 

  861. Jeffery C. S., Saio H. (2006). “Gravity-mode pulsation in subdwarf B stars: a critical test of stellar opacity”, Monthly Notices of the Royal Astronomical Society,372, L48 – L52

    Google Scholar 

  862. Jeffery C. S., Dhillon V. S., Marsh T. R., Ramachandran B. (2004). “Multicolour high-speed photometry of pulsating subdwarf B stars with ULTRACAM”, Monthly Notices of the Royal Astronomical Society,352, 699 – 707

    Google Scholar 

  863. Jeffery C. S., Aerts C., Dhillon V. S., Marsh T. R., Gänsicke B. T. (2005). “Multicolour high-speed photometry of the subdwarf B star PG 0014+067 with ULTRACAM”, Monthly Notices of the Royal Astronomical Society,362, 66 – 78

    Google Scholar 

  864. Jeffrey W. (1988). “Inversion of helioseismic data”, Astrophysical Journal,327, 987 – 992

    Google Scholar 

  865. Jeffreys B. (1965). “Transformation of Tesseral Harmonics under Rotation” Geophysical Journal International,10, 141 – 145

    Google Scholar 

  866. Jerzykiewicz M. (1978). “Nonradial oscillations of the Beta Cephei star 12 Lacertae”, Acta Astronomica,28, 465 – 496

    Google Scholar 

  867. Jerzykiewicz M. (1993). “UBV photometry of the Beta Cephei type variable stars. V - 16 (EN) Lacertae”, Acta Astronomica,43, 13 – 26

    Google Scholar 

  868. Jerzykiewicz M., Handler G., Shobbrook R. R., Pigulski A., Medupe R., Mokgwetsi T., Tlhagwane P., Rodríguez E. (2005). “Asteroseismology of the β Cephei star ν Eridani - IV. The 2003-2004 multisite photometric campaign and the combined 2002-2004 data”, Monthly Notices of the Royal Astronomical Society,360, 619 – 630

    Google Scholar 

  869. Jiménez-Reyes S. J., Chaplin W. J., García R. A., Appourchaux T., Baudin F., Boumier P., Elsworth Y., Fletcher S. T., Lazrek M., Leibacher J. W., Lochard J., New R., Régulo C., Salabert D., Toutain T., Verner G. A., Wachter R. (2008). “solarFLAG hare and hounds: estimation of p-mode frequencies from Sun-as-star helioseismic data”, Monthly Notices of the Royal Astronomical Society, 389, 1780 – 1790

    Google Scholar 

  870. Jones C. A. (1976). “Acoustic overstability in a polytropic atmosphere”, Monthly Notices of the Royal Astronomical Society,176, 145 – 159

    Google Scholar 

  871. Jordinson C., Gough D. O. (2000). “The effect of the solar cycle on the resonant coupling of g modes”, In Proc. IAU Colloq. 176: The impact of large-scale surveys on pulsating star research, Eds L. Szabados, D. W. Kurtz, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 203, 390

    Google Scholar 

  872. Jura M. (1986). “RV Tauri stars as post-asymptotic giant branch objects”, Astrophysical Journal,309, 732 – 736

    Google Scholar 

  873. Jurcsik J., Szeidl B., Nagy A., Sodor A. (2005). “On the Distribution of the Modulation Frequencies of RR Lyrae Stars”, Acta Astronomica,55, 303 – 314

    Google Scholar 

  874. Jurcsik J., Szeidl B., Váradi M., Henden A., Hurta Z., Lakatos B., Posztobányi K., Klagyivik P., Sódor Á. (2006). “The triple-mode pulsating variable V823 Cassiopeiae”, Astronomy and Astrophysics,445, 617 – 625

    Google Scholar 

  875. Jurkevich I. (1971). “A Method of Computing Periods of Cyclic Phenomena”, Astrophysics and Space Science,13, 154 – 167

    Google Scholar 

  876. Kallinger T., Zwintz K., Pamyatnykh A. A., Guenther D. B., Weiss W. W. (2005). “Pulsation of the K 2.5 giant star GSC 09137-03505?”, Astronomy and Astrophysics,433, 267 – 273

    Google Scholar 

  877. Kallinger T., Guenther D. B., Weiss W. W., Hareter M., Matthews J. M., Kuschnig R., Reegen P., Walker G. A. H., Rucinski S. M., Moffat A. F. J., Sasselov D., 2008a, “MOST found evidence for solar-type oscillations in the K2 giant star HD 20884”, Communications in Asteroseismology,153, 84 – 103

    Google Scholar 

  878. Kallinger T., Guenther D. B., Matthews J. M., Weiss W. W., Huber D., Kuschnig R., Moffat A. F. J., Rucinski S. M., Sasselov D., 2008b, “Nonradial p-modes in the G9.5 giant ε Ophiuchi? Pulsation model fits to MOST photometry”, Astronomy and Astrophysics,478, 497 – 505

    Google Scholar 

  879. Kanaan A., Hatzes A. P. (1998). “Pulsations and Radial Velocity Variations in Pulsating AP Stars. I. Analysis of gamma Equulei”, Astrophysical Journal,503, 848 – 857

    Google Scholar 

  880. Kanbur S. M., Simon N. R. (1994). “Comparative pulsation calculations with OP and OPAL opacities”, Astrophysical Journal,420, 880 – 883

    Google Scholar 

  881. Karami K. (2008). “Third order effect of rotation on stellar oscillations of a B star”, Chinese Journal of Astronomy and Astrophysics, 8, 285 – 308

    Google Scholar 

  882. Kato S. (1974). “Resonant interaction between non-radial oscillations and tide and double periodicity of beta Cephei stars”, Publications of the Astronomical Society of Japan,26, 341 – 353

    Google Scholar 

  883. Kaufer A., Stahl O., Wolf B., Fullerton A. W., Gaeng T., Gummersbach C. A., Jankovics I., Kovács J., Mandel H., Peitz J., Rivinius T., Szeifert T. (1997). “Long-term spectroscopic monitoring of BA-type supergiants. III. Variability of photospheric lines”, Astronomy and Astrophysics,320, 273 – 286

    Google Scholar 

  884. Kaufer A., Stahl O., Tubbesing S., Norregaard P., Avila G., Francois P., Pasquini L., Pizzella A. (2000). “Performance report on FEROS, the new fiber-linked echelle spectrograph at the ESO 1.52-m telescope”, In Proc. SPIE: Optical and IR Telescope Instrumentation and Detectors, Eds M. Iye, A. F. Moorwood, 4008, 459 – 466

    Google Scholar 

  885. Kawaler S. D. (2004). “White dwarf rotation: observation and theory”, In Proc. IAU Symposium No 215: Stellar Rotation, eds A. Maeder, P. Eenens, Astronomical Society of the Pacific, San Francisco, 561 – 570

    Google Scholar 

  886. Kawaler S. D., Winget D. E., Hansen C. J., 1985a, “Evolutionary period changes in rotating hot pre-white dwarf stars”, Astrophysical Journal,298, 752 – 755

    Google Scholar 

  887. Kawaler S. D., Winget D. E., Hansen C. J., 1985b, “Evolution of the pulsation properties of hot pre-white dwarf stars”, Astrophysical Journal,295, 547 – 560

    Google Scholar 

  888. Kawaler S. D., Sekii T., Gough D. (1999). “Prospects for Measuring Differential Rotation in White Dwarfs through Asteroseismology”, Astrophysical Journal,516, 349 – 365

    Google Scholar 

  889. Kawaler S. D., Potter E. M., Vučković M., Dind Z. E., O’Toole S., Clemens J. C., O’Brien M. S., Grauer A. D., Nather R. E., Moskalik P. A., Claver C. F., Fontaine G., Wesemael F., Bergeron P., Vauclair G., Dolez N., Chevreton M., Kleinman S. J., Watson T. K., Barstow M. A., Sansom A. E., Winget D. E., Kepler S. O., Kanaan A., Bradley P. A., Dixson J., Provencal J., Bedding T. R. (2004). “Whole Earth Telescope observations of the pulsating hot white dwarf PG 1707+427”, Astronomy and Astrophysics,428, 969 – 981

    Google Scholar 

  890. Kaye A. B., Handler G., Krisciunas K., Poretti E., Zerbi F. M. (1999). “Gamma Doradus Stars: Defining a New Class of Pulsating Variables”, Publications of the Astronomical Society of the Pacific,111, 840 – 844

    Google Scholar 

  891. Kendall M., Ord J. K. (1990). Time series, 3rd edition, London: Hodder Arnold

    Google Scholar 

  892. Kennelly E. J., Walker G. A. H., Merryfield W. J. (1992). “Tau Pegasi - A Fourier representation of line-profile variations”, Astrophysical Journal,400, L71 – L74

    Google Scholar 

  893. Kennelly E. J., Walker G. A. H. (1996). “The Line-Profile Variations of θ2 Tauri”, Publications of the Astronomical Society of the Pacific,108, 327 – 331

    Google Scholar 

  894. Kennelly E. J., Brown T. M., Kotak R., Sigut T. A. A., Horner S. D., Korzennik S. G., Nisenson P., Noyes R. W., Walker A., Yang S. (1998). “The Oscillations of Tau Pegasi”, Astrophysical Journal,495, 440 – 457

    Google Scholar 

  895. Kepler S. O. (2007). “Observational white dwarf seismology”, Communications in Asteroseismology,150, 221 – 226

    Google Scholar 

  896. Kepler S. O., Nather R. E., Winget D. E., Nitta A., Kleinman S. J., Metcalfe T., Sekiguchi K., Xiaojun J., Sullivan D., Sullivan T., Janulis R., Meistas E., Kalytis R., Krzesinski J., Ogoza W., Zola S., O’Donoghue D., Romero-Colmenero E., Martinez P., Dreizler S., Deetjen J., Nagel T., Schuh S. L., Vauclair G., Ning F. J., Chevreton M., Solheim J.-E., Gonzalez Perez J. M., Johannessen F., Kanaan A., Costa J. E., Murillo Costa A. F., Wood M. A., Silvestri N., Ahrens T. J., Jones A. K., Collins A. E., Boyer M., Shaw J. S., Mukadam A., Klumpe E. W., Larrison J., Kawaler S., Riddle R., Ulla A., Bradley P. (2003). “The everchanging pulsating white dwarf GD358”, Astronomy and Astrophysics,401, 639 – 654

    Google Scholar 

  897. Kepler S. O., Castanheira B. G., Saraiva M. F. O., Nitta A., Kleinman S. J., Mullally F., Winget D. E., Eisenstein D. J. (2005). “Discovery of fourteen new ZZ Cetis with SOAR”, Astronomy and Astrophysics,442, 629 – 634

    Google Scholar 

  898. Kepler S. O., Kleinman S. J., Nitta A., Koester D., Castanheira B. G., Giovannini O., Costa A. F. M., Althaus L. (2007). “White dwarf mass distribution in the SDSS”, Monthly Notices of the Royal Astronomical Society,375, 1315 – 1324

    Google Scholar 

  899. Kervella P., Thévenin F., Ségransan D., Berthomieu G., Lopez B., Morel P., Provost J. (2003). “The diameters of α Centauri A and B. A comparison of the asteroseismic and VINCI/VLTI views”, Astronomy and Astrophysics, 404, 1087 – 1097

    Google Scholar 

  900. Kienzle F., Moskalik P., Bersier D., Pont F. (1999). “Structural properties of s-Cepheid velocity curves. Constraining the location of the ω4 = 2omega1 resonance”, Astronomy and Astrophysics,341, 818 – 826

    Google Scholar 

  901. Kilkenny D., Koen C., O’Donoghue D., Stobie R. S. (1997). “A new class of rapidly pulsating star - I. EC 14026-2647, the class prototype”, Monthly Notices of the Royal Astronomical Society,285, 640 – 644

    Google Scholar 

  902. Kilkenny D., O’Donoghue D., Koen C., Lynas-Gray A. E., van Wyk F. (1998). “The EC 14026 stars - VIII. PG 1336-018: a pulsating sdB star in an HWVir-type eclipsing binary”, Monthly Notices of the Royal Astronomical Society,296, 329 – 338

    Google Scholar 

  903. Kilkenny D., Lawson W. A., Marang F., Roberts G., van Wyk F. (1999). “A photometric study of the hydrogen-deficient stars BD + 1 ∘ 4381 (FQ Aqr) and BD − 1 ∘ 3438 (NO Ser)”, Monthly Notices of the Royal Astronomical Society,305, 103 – 108

    Google Scholar 

  904. Kilkenny D., Reed M. D., O’Donoghue D., Kawaler S. D., Mukadam A., Kleinman S. J., Nitta A., Metcalfe T. S., Provencal J. L., Watson T. K., Sullivan D. J., Sullivan T., Shobbrook R., Jiang X. J., Joshi S., Ashoka B. N., Seetha S., Leibowitz E., Ibbetson P., Mendelson H., Meištas E., Kalytis R., Ališauskas D., Martinez P., van Wyk F., Stobie R. S., Marang F., Zola S., Krzesinski J., Ogłoza W., Moskalik P., Silvotti R., Piccioni A., Vauclair G., Dolez N., Chevreton M., Dreizler S., Schuh S. L., Deetjen J. L., Solheim J.-E., Gonzalez Perez J. M., Ulla A., Østensen R., Manteiga M., Suarez O., Burleigh M., Kepler S. O., Kanaan A., Giovannini O. (2003). “A Whole Earth Telescope campaign on the pulsating subdwarf B binary system PG 1336-018 (NY Vir)”, Monthly Notices of the Royal Astronomical Society,345, 834 – 846

    Google Scholar 

  905. Kim A., Winget D. E., Montgomery M. H., Sullivan D. J. (2005). “Exploring Uncharted Territory in Particle Physics Using Pulsating White Dwarfs: Prospects”, In 14th European Workshop on White Dwarfs, Eds D. Koester, S. Moehler, Astronomical Society of the Pacific, San Francisco, 334, 489

    Google Scholar 

  906. Kim C., McNamara D. H., Christensen C. G. (1993). “A photometric and spectrographic study of SX Phoenicis”, Astronomical Journal,106, 2493 – 2501

    Google Scholar 

  907. Kim S.-L., Lee J. W., Youn J.-H., Kwon S.-G., Kim C. (2002). “Photometric study of a pulsating component in the eclipsing binary Y Cam”, Astronomy and Astrophysics,391, 213 – 218

    Google Scholar 

  908. Kippenhahn R., Weigert A. (1990). Stellar structure and evolution, Springer-Verlag, Berlin

    Google Scholar 

  909. Kiriakidis M., Fricke K. J., Glatzel W. (1993). “The Stability of Massive Stars and its Dependence on Metallicity and Opacity”, Monthly Notices of the Royal Astronomical Society,264, 50 – 62

    Google Scholar 

  910. Kiss L. L., Bedding T. R. (2003). “Red variables in the OGLE-II data base - I. Pulsations and period-luminosity relations below the tip of the red giant branch of the Large Magellanic Cloud”, Monthly Notices of the Royal Astronomical Society,343, L79 – L83

    Google Scholar 

  911. Kiss L. L., Bedding T. R. (2004). “Red variables in the OGLE-II data base - II. Comparison of the Large and Small Magellanic Clouds”, Monthly Notices of the Royal Astronomical Society,347, L83 – L87

    Google Scholar 

  912. Kjeldsen H., Bedding T. R. (1995). “Amplitudes of stellar oscillations: the implications for asteroseismology”, Astronomy and Astrophysics,293, 87 – 106

    Google Scholar 

  913. Kjeldsen H., Bedding T. R., Viskum M., Frandsen S. (1995). “Solar-like oscillations in η Boo”, Astronomical Journal,109, 1313 – 1319

    Google Scholar 

  914. Kjeldsen H., Arentoft T., Bedding T. R., Christensen-Dalsgaard J., Frandsen S., Thompson M. J. (1998). “Asteroseismology and stellar rotation”, In Structure and dynamics of the interior of the Sun and Sun-like stars; Proc. SOHO 6/GONG 98 Workshop, eds S. G. Korzennik, A. Wilson, ESA SP-418, ESA Publications Division, Noordwijk, The Netherlands, 385 – 390

    Google Scholar 

  915. Kjeldsen H., Bedding T. R., Frandsen S., Dall T. H. (1999). “A search for solar-like oscillations and granulation in α Cen A”, Monthly Notices of the Royal Astronomical Society, 303, 579 – 587

    Google Scholar 

  916. Kjeldsen H., Bedding T. R., Baldry I. K., Bruntt H., Butler R. P., Fischer D. A., Frandsen S., Gates E. L., Grundahl F., Lang K., Marcy G. W., Misch A., Vogt S. S. (2003). “Confirmation of solar-like oscillations in η Bootis”, Astronomical Journal,126, 1483 – 1488

    Google Scholar 

  917. Kjeldsen H., Bedding T. R., Butler R. P., Christensen-Dalsgaard J., Kiss L. L., McCarthy C., Marcy G. W., Tinney C. G., Wright J. T. (2005). “Solar-like oscillations in α Centauri B”, Astrophysical Journal, 635, 1281 – 1290

    Google Scholar 

  918. Kjeldsen H., Bedding T. R., Arentoft T., Butler R. P., Dall T. H., Karoff C., Kiss L. L., Tinney C. G., Chaplin W. J., 2008a, “The amplitude of solar oscillations using stellar techniques”, Astrophysical Journal, 682, 1370 – 1375

    Google Scholar 

  919. Kjeldsen H., Bedding T. R., Christensen-Dalsgaard J., 2008b, “Correcting stellar oscillation frequencies for near-surface effects”, Astrophysical Journal, 683, L175 – L178

    Google Scholar 

  920. Kleinman S. J., Harris H. C., Eisenstein D. J., Liebert J., Nitta A., Krzesiński J., Munn J. A., Dahn C. C., Hawley S. L., Pier J. R., Schmidt G., Silvestri N. M., Smith J. A., Szkody P., Strauss M. A., Knapp G. R., Collinge M. J., Mukadam A. S., Koester D., Uomoto A., Schlegel D. J., Anderson S. F., Brinkmann J., Lamb D. Q., Schneider D. P., York D. G. (2004). “A Catalog of Spectroscopically Identified White Dwarf Stars in the First Data Release of the Sloan Digital Sky Survey”, Astrophysical Journal,607, 426 – 444

    Google Scholar 

  921. Kochukhov O. (2004). “Indirect Imaging of Nonradial Pulsations in a Rapidly Oscillating Ap Star”, Astrophysical Journal,615, L149 – L152

    Google Scholar 

  922. Kochukhov O. (2005). “Variation of the line profile moments for stars pulsating in distorted oblique non-radial modes”, Astronomy and Astrophysics,438, 219 – 226

    Google Scholar 

  923. Kochukhov O. (2006). “Pulsational line profile variation of the roAp star HR 3831”, Astronomy and Astrophysics,446, 1051 – 1070

    Google Scholar 

  924. Kochukhov O., Ryabchikova T., 2001a, “Time-resolved spectroscopy of the roAp star γ Equ”, Astronomy and Astrophysics,374, 615 – 628

    Google Scholar 

  925. Kochukhov O., Ryabchikova T., 2001b, “Pulsational and rotational line profile variations of the roAp stars α Cir, and HR 3831”, Astronomy and Astrophysics,377, L22 – L2

    Google Scholar 

  926. Kochukhov O., Bagnulo S., Barklem P. S., 2002a, “Interpretation of the Core-Wing Anomaly of Balmer Line Profiles of Cool Ap Stars”, Astrophysical Journal,578, L75 – L78

    Google Scholar 

  927. Kochukhov O., Landstreet J. D., Ryabchikova T., Weiss W. W., Kupka F., 2002b, “Discovery of rapid radial velocity variations in the roAp star 10 Aql and possible pulsations of β CrB”, Monthly Notices of the Royal Astronomical Society,337, L1 – L5

    Google Scholar 

  928. Kochukhov O., Drake N. A., Piskunov N., de la Reza R., 2004a, “Multi-element abundance Doppler imaging of the rapidly oscillating Ap star HR 3831”, Astronomy and Astrophysics,424, 935 – 950

    Google Scholar 

  929. Kochukhov O., Ryabchikova T., Landstreet J. D., Weiss W. W., 2004b, “The null result of a search for pulsational variations of the surface magnetic field in the roAp star γ Equulei”, Monthly Notices of the Royal Astronomical Society,351, L34 – L38

    Google Scholar 

  930. Kochukhov O., Ryabchikova T., Piskunov N., 2004c, “No magnetic field variation with pulsation phase in the roAp star γ Equulei”, Astronomy and Astrophysics,415, L13 – L16

    Google Scholar 

  931. Koester D., Moehler S. (Eds) (2005). 14th European Workshop on White Dwarfs, Astronomical Society of the Pacific Conference Series, San Francisco, 334

    Google Scholar 

  932. Koestler, A. (1959). The Sleepwalkers, the Macmillan Company, New York

    Google Scholar 

  933. Kołaczkowski Z., Pigulski A., Soszyński I., Udalski A., Szymañski M., Kubiak M., Zebruń K., Pietrzyński G., Woźniak P. R., Szewczyk O., Wyrzykowski L. (2005). “Beta Cephei stars in the LMC”, Be Star Newsletter,37, 19

    Google Scholar 

  934. Kołaczkowski Z., Pigulski A., Soszyński I., Udalski A., Kubiak M., Szymański M., Żebruń K., Pietrzyński G., Woźniak P. R., Szewczyk O., Wyrzykowski Ł. (2006). “Hot pulsators in the Magellanic Clouds ”, Memorie della Societa Astronomica Italiana,77, 336

    Google Scholar 

  935. Kolenberg K., Smith H. A., Gazeas K. D., Elmaslı A., Breger M., Guggenberger E., van Cauteren P., Lampens P., Reegen P., Niarchos P. G., Albayrak B., Selam S. O., Özavcı I., Aksu O. (2006). “The Blazhko effect of RR Lyrae in 2003-2004”, Astronomy and Astrophysics,459, 577 – 588

    Google Scholar 

  936. Komm R. W., Howe R., Hill F. (2000). “Width and energy of solar p-modes observed by Global Oscillation Network Group”, Astrophysical Journal,543, 472 – 485

    Google Scholar 

  937. Korzennik S. G., Cacciani A., Rhodes E. J., Tomczyk S., Ulrich R. K. (1988). “Inversion of the solar rotation rate versus depth and latitude”, Seismology of the Sun, Sun-like Stars, 117 – 124, Eds V. Domingo, E. J. Rolfe, ESA SP-286, ESA Publications Division, Noordwijk, The Netherlands

    Google Scholar 

  938. Korzennik S. G., Cacciani A., Rhodes E. J., Ulrich R. K. (1990). “Contribution of high degree frequency splittings to the inversion of the solar rotation rate”, In Progress of seismology of the sun and stars, Lecture Notes in Physics, 367, 341 – 347, Eds Y. Osaki, H. Shibahashi, Springer, Berlin

    Google Scholar 

  939. Korzennik S. G., Rabello-Soares M. C., Schou J. (2004). “On the determination of Michelson Doppler Imager high-degree mode frequencies”, Astrophysical Journal,602, 481 – 515

    Google Scholar 

  940. Kosovichev A. G. (1988). “The internal rotation of the Sun from helioseismological data”, Pis’ma Astron. Zh.,14, 344 – 352 (English translation: Sov. Astron. Lett.,14, 145 – 149)

    Google Scholar 

  941. Kosovichev A. G. (1996). “Helioseismic constraints on the gradient of angular velocity at the base of the solar convection zone”, Astrophysical Journal,469, L61 – L64

    Google Scholar 

  942. Kosovichev A. G. (1997). “Inferences of element abundances from helioseismic data”, In Robotic Exploration Close to the Sun: Scientific Basis, Ed. S.R. Habbal, AIP Conf. Proc. 385, Amer. Inst. Phys., Woodbury, NY, 159 – 168

    Google Scholar 

  943. Kosovichev A. G., Novikov I. D. (1992). “Non-linear effects at tidal capture of stars by a massive black hole – I. Incompressible affine model”, Monthly Notices of the Royal Astronomical Society,258, 715 – 724

    Google Scholar 

  944. Kosovichev A. G., Schou J. (1997). “Detection of zonal shear flows beneath the Sun’s surface from f-mode frequency splitting”, Astrophysical Journal,482, L207 – L210

    Google Scholar 

  945. Kosovichev A. G., Christensen-Dalsgaard J., Däppen W., Dziembowski W. A., Gough D. O., Thompson M. J. (1992). “Sources of uncertainty in direct seismological measurements of the solar helium abundance”, Monthly Notices of the Royal Astronomical Society,259, 536 – 558

    Google Scholar 

  946. Kosovichev A. G., Schou J., Scherrer P. H., Bogart R. S., Bush R. I., Hoeksema J. T., Aloise J., Bacon L., Burnette A., de Forest C., Giles P. M., Leibrand K., Nigam R., Rubin M., Scott K., Williams S. D., Basu S., Christensen-Dalsgaard J., Däppen W., Rhodes Jr E. J., Duvall Jr T. L., Howe R., Thompson M. J., Gough D. O., Sekii T., Toomre J., Tarbell T. D., Title A. M., Mathur D., Morrison M., Saba J. L. R., Wolfson C. J., Zayer I., Milford P. N. (1997). “Structure and rotation of the solar interior: initial results from the MDI medium-l program”, Solar Physics,170, 43 – 61

    Google Scholar 

  947. Kovács G. (2000). “The distance modulus of the Large Magellanic Cloud based on double-mode RR Lyrae stars”, Astronomy and Astrophysics,363, L1 – L4

    Google Scholar 

  948. Kovács G. (2001). “On the double-mode RR Lyrae variables of the Sculptor dwarf galaxy”, Astronomy and Astrophysics,375, 469 – 475

    Google Scholar 

  949. Kovács G., Buchler J. R. (1994). “The triple-mode variable AC Andromedae”, Astronomy and Astrophysics,281, 749 – 755

    Google Scholar 

  950. Krisciunas K., Aspin C., Geballe T. R., Akazawa H., Claver C. F., Guinan E. F., Landis H. J., Luedeke K. D., Ohkura N., Ohshima O., Skillman D. R. (1993). “The 9-AURIGAE System”, Monthly Notices of the Royal Astronomical Society,263, 781 – 788

    Google Scholar 

  951. Kristian J. (1991). “No Pulsar in Supernova 1987A”, Nature,349, 747 – 749

    Google Scholar 

  952. Kristian J., Pennypacker C. R., Morris D. E., Muller R. A., Middleditch J., Hamuy M. A., Kunkel W. E., Imamura J. N., Lucinio R., Steiman-Cameron T. Y. (1989). “Submillisecond optical pulsar in supernova 1987A”, Nature,338, 234 – 236

    Google Scholar 

  953. Kubiak M. (1980). “Beta Cephei stars as non-radial oscillators. II - Multiperiodic variables Sigma SCO and Nu ERI”, Acta Astronomica,30, 219 – 235

    Google Scholar 

  954. Kubiak M., Seggewiss W. (1991). “Simultaneous spectroscopic and photoelectric observations of Beta Cephei stars. V - Nu Eridani”, Acta Astronomica,41, 127 – 148

    Google Scholar 

  955. Kudritzki R.-P., Puls J. (2000). “Winds from hot stars”, Annual Review of Astronomy and Astrophysics,38, 613 – 666

    Google Scholar 

  956. Kudritzki R. P., Lennon D. J., Puls J. (1994). “The wind momentum-luminosity relation of early type supergiants”, Astronomische Gesellschaft Abstract Series,10, 42

    Google Scholar 

  957. Kuhfuß R. (1986). “A model of time-dependent turbulent convection”, Astronomy and Astrophysics,160, 116 – 120

    Google Scholar 

  958. Kumar P., Basu S. (1999). “Line asymmetry of solar p-modes: Properties of acoustic sources”, Astrophysical Journal,519, 396 – 399

    Google Scholar 

  959. Kumar P., Goldreich P. (1989). “Nonlinear interactions among solar acoustic modes”, Astrophysical Journal,342, 558 – 575

    Google Scholar 

  960. Kumar P., Quataert E. J. (1997). “Angular momentum transport by gravity waves and its effect on the rotation of the solar interior”, Astrophysical Journal,475, L143 – L146

    Google Scholar 

  961. Kumar P., Franklin J., Goldreich P. (1988). “Distribution function for the time-averaged energies of stochastically excited solar p-modes”, Astrophysical Journal,328, 879 – 887

    Google Scholar 

  962. Kumar P., Quataert E. J., Bahcall J. N. (1996). “Observational searches for solar g-modes: some theoretical considerations”, Astrophysical Journal,458, L83 – L85

    Google Scholar 

  963. Kupka F., Montgomery M. H. (2002). “A-star envelopes: a test of local and non-local models of convection”, Monthly Notices of the Royal Astronomical Society,330, L6 – L10

    Google Scholar 

  964. Kurtz D. W. (1978). “12.15 Minute Light Variations in Przybylski’s Star, HD 101065”, Information Bulletin on Variable Stars,1436, 1 – 2

    Google Scholar 

  965. Kurtz D. W. (1980). “Frequency analysis of the light variability of HD 101065, Przybylski’s star”, Monthly Notices of the Royal Astronomical Society,191, 115 – 122

    Google Scholar 

  966. Kurtz D. W. (1981). “Discovery of 6.15 Minute Oscillations in the Cool Magnetic Ap Star HD 24712”, Information Bulletin on Variable Stars,1915, 1 – 4

    Google Scholar 

  967. Kurtz D. W. (1982). “Rapidly oscillating Ap stars”, Monthly Notices of the Royal Astronomical Society,200, 807 – 859

    Google Scholar 

  968. Kurtz D. W. (1990). “Rapidly oscillating Ap stars”, Annual Review of Astronomy and Astrophysics,28, 607 – 655

    Google Scholar 

  969. Kurtz D. W. (1992). “Axisymmetric spherical harmonic decomposition of the pulsation modes in rapidly oscillating Ap stars”, Monthly Notices of the Royal Astronomical Society,259, 701 – 708

    Google Scholar 

  970. Kurtz D. W. (2002). “Meeting Summary and Outlook for the Future” In IAU Colloq. 185: Radial and Nonradial Pulsations as Probes of Stellar Physics, Eds C. Aerts, T. R. Bedding, J. Christensen-Dalsgaard, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 259, 639 – 667

    Google Scholar 

  971. Kurtz D. W. (2005). “Asteroseismology: Past, Present and Future”, Journal of Astrophysics and Astronomy,26 , 123 – 138

    Google Scholar 

  972. Kurtz D. W., Leone F. (2006). “On the roAp star status of β Coronae Borealis”, Astronomy and Astrophysics,458, 915 – 919

    Google Scholar 

  973. Kurtz D. W., Marang F. (1995). “The discovery of delta Scuti pulsational variability in the pre-main-sequence Herbig AE star, HR 5999, and the discovery of rotational light variability in the remarkable He-weak BP star, HR 6000”, Monthly Notices of the Royal Astronomical Society,276, 191 – 198

    Google Scholar 

  974. Kurtz D. W., Martinez P. (2000). “Observing roAp Stars with WET: A Primer”, Baltic Astronomy,9, 253 – 353

    Google Scholar 

  975. Kurtz D. W., Medupe R. (1996). “Pulsation amplitude as a function of wavelength in roAp stars - a derivation of Δ T/T versus atmospheric depth”, Bulletin of the Astronomical Society of India,24, 291 – 300

    Google Scholar 

  976. Kurtz D. W., Pollard K. R. (Eds) (2004). Variable Stars in the Local Group, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 310

    Google Scholar 

  977. Kurtz D. W., Seeman J. (1983). “Frequency analysis of the rapidly oscillating Ap star HR 1217 (HD 24712)”, Monthly Notices of the Royal Astronomical Society,205, 11 – 22

    Google Scholar 

  978. Kurtz D., Wegner G. (1979). “The nature of Przybylski’s star - an Ap star model inferred from the light variations and temperature”, Astrophysical Journal,232, 510 – 519

    Google Scholar 

  979. Kurtz D. W., Matthews J. M., Martinez P., Seeman J., Cropper M., Clemens J. C., Kreidl T. J., Sterken C., Schneider H., Weiss W. W., Kawaler S. D., Kepler S. O. (1989). “The high-overtone p-mode spectrum of the rapidly oscillating Ap star HR 1217 (HD 24712) - Results of a frequency analysis of 324 HR of multi-site photometric observations obtained during a 46-d time-span in 1986”, Monthly Notices of the Royal Astronomical Society,240, 881 – 915

    Google Scholar 

  980. Kurtz D. W., Garrison R. F., Koen C., Hofmann G. F., Viranna N. B. (1995). “Metallicism and pulsation: the discovery of large-amplitude delta Scuti pulsation in a high-metallicity rho Puppis star, HD 40765”, Monthly Notices of the Royal Astronomical Society,276, 199 – 205

    Google Scholar 

  981. Kurtz D. W., Alcock C., Allsman R. A., Alves D., Axelrod T. S., Becker A. C., Bennett D. P., Cook K. H., Freeman K. C., Griest K., Lehner M. J., Marshall S. L., Minniti D., Peterson B. A., Pratt M. R., Quinn P. J., Rodgers A. W., Stubbs C. W., Sutherland W., Tomaney A., Welch D. L., The MACHO Collaboration (2000). “A New Look at the Blazhko Effect in RR Lyrae Stars with High-Quality Data from the MACHO Project”, In IAU Colloquium 176: The Impact of Large-Scale Surveys on Pulsating Star Research, Eds L. Szabados, D. W. Kurtz, Astronomical Society of the Pacific Conference Series, San Francisco, 203, 291 – 298

    Google Scholar 

  982. Kurtz D. W., Kawaler S. D., Riddle R. L., Reed M. D., Cunha M. S., Wood M., Silvestri N., Watson T. K., Dolez N., Moskalik P., Zola S., Pallier E., Guzik J. A., Metcalfe T. S., Mukadam A. S., Nather R. E., Winget D. E., Sullivan D. J., Sullivan T., Sekiguchi K., Jiang X., Shobbrook R., Ashoka B. N., Seetha S., Joshi S., O’Donoghue D., Handler G., Mueller M., Gonzalez Perez J. M., Solheim J.-E., Johannessen F., Ulla A., Kepler S. O., Kanaan A., da Costa A., Fraga L., Giovannini O., Matthews J. M. (2002). “Discovery of the ‘missing’ mode in HR 1217 by the Whole Earth Telescope”, Monthly Notices of the Royal Astronomical Society,330, L57 – L61

    Google Scholar 

  983. Kurtz D. W., Elkin V. G., Mathys G. (2003). New heights in asteroseismology: VLT spectroscopy of the roAp star HD 166473, Monthly Notices of the Royal Astronomical Society, 343, L5 – L9

    Google Scholar 

  984. Kurtz D. W., Cameron C., Cunha M. S., Dolez N., Vauclair G., Pallier E., Ulla A., Kepler S. O., da Costa A., Kanaan A., Fraga L., Giovannini O., Wood M. A., Silvestri N., Kawaler S. D., Riddle R. L., Reed M. D., Watson T. K., Metcalfe T. S., Mukadam A., Nather R. E., Winget D. E., Nitta A., Kleinman S. J., Guzik J. A., Bradley P. A., Matthews J. M., Sekiguchi K., Sullivan D. J., Sullivan T., Shobbrook R., Jiang X., Birch P. V., Ashoka B. N., Seetha S., Girish V., Joshi S., Moskalik P., Zola S., O’Donoghue D., Handler G., Mueller M., Perez J. M. G., Solheim J.-E., Johannessen F., Bigot L., 2005a, “Pushing the ground-based limit: 14-μmag photometric precision with the definitive Whole Earth Telescope asteroseismic data set for the rapidly oscillating Ap star HR1217”, Monthly Notices of the Royal Astronomical Society,358, 651 – 664

    Google Scholar 

  985. Kurtz D. W., Elkin V. G., Mathys G., 2005b, “Probing the magnetoacoustic boundary layer in the peculiar magnetic star 33 Lib (HD 137949)”, Monthly Notices of the Royal Astronomical Society,358, L6 – L10

    Google Scholar 

  986. Kurtz D. W., Elkin V. G., Cunha M. S., Mathys G., Hubrig S., Wolff B., Savanov I., 2006a, “The discovery of 8.0-min radial velocity variations in the strongly magnetic cool Ap star HD154708, a new roAp star”, Monthly Notices of the Royal Astronomical Society,372, 286 – 292

    Google Scholar 

  987. Kurtz D. W., Elkin V. G., Mathys G., 2006b, “The discovery of a new type of upper atmospheric variability in the rapidly oscillating Ap stars with VLT high-resolution spectroscopy”, Monthly Notices of the Royal Astronomical Society,370, 1274 – 1294

    Google Scholar 

  988. Kurtz D. W., Elkin V. G., Mathys G., 2007a, “The detection of the very low amplitude 16.2-min pulsation in individual lines of first ionization stage of rare earth elements in the roAp star β CrB”, Monthly Notices of the Royal Astronomical Society,380, 741 – 748

    Google Scholar 

  989. Kurtz D. W., Elkin V. G., Mathys G., van Wyk F., 2007b, “On the nature of the upper atmospheric variability in the rapidly oscillating Ap star HD 134214”, Monthly Notices of the Royal Astronomical Society,381, 1301 – 1312

    Google Scholar 

  990. Kurtz D. W., Shibahashi, H., Dhillon, V.S., March, T.R., Littlefair, S.P. (2008). “A search for a new class of pulsating DA white dwarfs in the DB gap”, Monthly Notices of the Royal Astronomical Society, , 389, 1771 – 1779

    Google Scholar 

  991. Kurucz R. L. (1993). SYNTHE spectrum synthesis programs and line data, Kurucz CD-ROMs, Cambridge, MA: Smithsonian Astrophysical Observatory

    Google Scholar 

  992. Kuschnig R., Weiss W. W., Gruber R., Bely P. Y., Jenkner H. (1997). “Microvariability survey with the Hubble Space Telescope Fine Guidance Sensors. Exploring the instrumental properties”, Astronomy and Astrophysics,328, 544 – 550

    Google Scholar 

  993. Lafler J., Kinman T. D. (1965). “An RR Lyrae Star Survey with Ihe Lick 20-INCH Astrograph II. The Calculation of RR Lyrae Periods by Electronic Computer”, Astrophysical Journal Supplement Series,11, 216 – 222

    Google Scholar 

  994. Lamb H. (1909). “On the Theory of Waves Propagated Vertically in the Atmosphere”, Proceedings of the London Mathematical Society,7, 122 – 141

    Google Scholar 

  995. Lamb H. (1932). Hydrodynamics, 6th edition, Cambridge University Press, Cambridge

    Google Scholar 

  996. Lamers H. J. G. L. M., Bastiaanse M. V., Aerts C., Spoon H. W. W. (1998). “Periods, period changes and the nature of the microvariations of Luminous Blue Variables”, Astronomy and Astrophysics,335, 605 – 621

    Google Scholar 

  997. Lamers H. J. G. L. M., Cassinelli J. P. (1999). Introduction to Stellar Winds, Cambridge University Press, Cambridge

    Google Scholar 

  998. Lampens, P. (2006). “Intrinsic Variability in Multiple Systems and Clusters: Open Questions” In Astrophysics of Variable Stars, Eds C. Sterken, C. Aerts, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 349, 153

    Google Scholar 

  999. Lampens P., Frémat Y., Garrido R., Peña J. H., Parrao L., van Cauteren P., Cuypers J., de Cat P., Uytterhoeven K., Arentoft T., Hobart M. (2005). “A photometric study of the light variations of the triple system DG Leo”, Astronomy and Astrophysics, 438, 201 – 209

    Google Scholar 

  1000. Landau L. D., Lifshitz E. M. (1966). Fluid mechanics. Pergamon Press, Oxford

    Google Scholar 

  1001. Lanz T., Hubeny I. (2003). “A Grid of Non-LTE Line-blanketed Model Atmospheres of O-Type Stars”, Astrophysical Journal Supplement Series,146, 417 – 441 (Erratum: Astrophysical Journal Supplement Series,147, 225)

    Google Scholar 

  1002. Lanz T., Hubeny I. (2007). “A Grid of NLTE Line-blanketed Model Atmospheres of Early B-Type Stars”, Astrophysical Journal Supplement Series,169, 83 – 104

    Google Scholar 

  1003. Laplace P. S. (1799). Traité de Mécanique Céleste, Imprimerie de Crapelet, Paris

    Google Scholar 

  1004. Larsen R. M. (1997). “Iterative algorithms for two-dimensional helioseismic inversion”, In Proc. Interdisciplinary Inversion Workshop, Ed. B.H. Jacobsen, 5, Aarhus University, 123 – 137

    Google Scholar 

  1005. Larsen R. M., Hansen P. C. (1997). “Efficient implementation of the SOLA mollifier method”, Astronomy and Astrophysics Supplement Series,121, 587 – 598

    Google Scholar 

  1006. Larsen R. M., Christensen-Dalsgaard J., Kosovichev A. G., Schou J. (1998). “Improved SOLA inversions of MDI data”, In Structure and dynamics of the interior of the Sun and Sun-like stars; Proc. SOHO 6/GONG 98 Workshop, Eds S. G. Korzennik, A. Wilson, ESA SP-418, ESA Publications Division, Noordwijk, The Netherlands, 813 – 818

    Google Scholar 

  1007. Larson T. P., Schou J. (2008). “Improvements in global mode analysis”, In Proc. HELAS II International Conference: Helioseismology, Asteroseismology and the MHD Connections, Göttingen, August 2007, Eds L. Gizon, M. Roth, Journal of Physics, Conference Series,118, 012083(1 – 7)

    Google Scholar 

  1008. Latour J., Toomre J., Zahn J.-P. (1981). “Stellar convection theory. III. Dynamical coupling of the two convection zones in A-type stars by penetrative motion”, Astrophysical Journal,248, 1081 – 1098

    Google Scholar 

  1009. Lavely E. M., Ritzwoller M. H. (1992). “The effect of global-scale, steady-state convection and elastic-gravitational asphericities on helioseismic oscillations”, Phil. Trans. R. Soc. London, Ser. A, 339, 431 – 496

    Google Scholar 

  1010. Lavely E. M., Ritzwoller M. H. (1993). “Average effects of large-scale convection on helioseismic line widths and frequencies”, Astrophysical Journal, 403, 810 – 832

    Google Scholar 

  1011. Lawson W. A., Kilkenny D. (1996). “The observational characterization of hydrogen-deficient carbon stars as pulsating stars”, In Hydrogen Deficient Stars, Eds C. S. Jeffery, U. Heber, Astronomical Society of the Pacific Conference Series, San Francisco, 96, 349

    Google Scholar 

  1012. Lazrek M., Pantel A., Fossat E., Gelly B., Schmider F. X., Fierry-Fraillon D., Grec G., Loudagh S., Ehgamberdiev S., Khamitov I., Hoeksema J. T., Pallé P. L., Régulo C. (1996). “Is the solar core rotating faster or slower than the envelope?” Solar Physics,166, 1 – 16

    Google Scholar 

  1013. Lazrek M., Baudin F., Bertello L., Boumier P., Charra J., Fierry-Fraillon D., Fossat E., Gabriel A. H., García R. A., Gelly B., Gouiffes C., Grec G., Pallé P. L., Pérez Hernández F., Régulo C., Renaud C., Robillot J.-M., Roca-Cortés T., Turck-Chièze S., Ulrich R. K. (1997). “First results on p modes from GOLF experiment”, Solar Physics,175, 227 – 246

    Google Scholar 

  1014. Leavitt H. S., Pickering E. C. (1912). “Periods of 25 Variable Stars in the Small Magellanic Cloud”, Harvard College Observatory Circular,173, 1 – 3

    Google Scholar 

  1015. Lebovitz N. R. (1965). “On Schwarzschild’s criterion for the stability of gaseous masses”, Astrophysical Journal,142, 229 – 242

    Google Scholar 

  1016. Lebreton Y., Monteiro M. J. P. F. G., Montalbán J., Moya A., Baglin A., Christensen-Dalsgaard J., Goupil M.-J., Michel E., Provost J., Roxburgh I. W., Scuflaire R., ESTA Team (2008). “The CoRoT evolution and seismic tools activity”, Astrophysics and Space Science,316, 1 – 12

    Google Scholar 

  1017. Lebzelter T., Hinkle K. H. (2002). “Velocity variability of semiregular and irregular variables”, Astronomy and Astrophysics,393, 563 – 571

    Google Scholar 

  1018. Ledoux P. (1949). “Contributions à l’Étude de la Structure Interne des Étoiles et de leur Stabilité”, Mem. Soc. R. Sci. Liège, 4ième série, 9, 3 – 294 (“Chapitre V: Stabilité dynamique et pulsations d’étoiles gazeuses animées d’un mouvement de rotation uniforme”, 263 – 294)

    Google Scholar 

  1019. Ledoux P. (1951). “The nonradial oscillations of gaseous stars and the problem of beta Canis Majoris”, Astrophysical Journal,114, 373 – 384

    Google Scholar 

  1020. Ledoux P. (1962). “Sur la forme asymptotique des pulsations radiales adiabatiques d’une étoile. I.”, Bulletin de l’Académie Royale de Belgique, Classe des sciences, 5ième série, 48, 240 – 254

    Google Scholar 

  1021. Ledoux P., Walraven T. (1958). “Variable stars”, In Handbuch der Physik, 51, chapter IV, 353 – 604, Springer-Verlag

    Google Scholar 

  1022. Lee U. (1985). “Stability of the Delta Scuti stars against nonradial oscillations with low degrees L”, Publications of the Astronomical Society of Japan,37, 279 – 291

    Google Scholar 

  1023. Lee U. (1998). “Pulsational stability of rotating main-sequence B stars”, Astrophysical Journal,497, 912 – 920

    Google Scholar 

  1024. Lee U. (2001). “Pulsational stability of g-modes in slowly pulsating B stars”, Astrophysical Journal,557, 311 – 319

    Google Scholar 

  1025. Lee U. (2004). “Surface r-Modes and Burst Oscillations of Neutron Stars”, Astrophysical Journal,600, 914 – 926

    Google Scholar 

  1026. Lee U., Baraffe I. (1995). “Pulsational stability of rotating main sequence stars: the second order effects of rotation on the nonadiabatic oscillations”, Astronomy and Astrophysics, 301, 419 – 432

    Google Scholar 

  1027. Lee U., Saio, H. (1986). “Overstable convective modes in uniformly rotating massive main-sequence stars”, Monthly Notices of the Royal Astronomical Society,221, 365 – 376

    Google Scholar 

  1028. Lee U., Saio H. (1987). “Low-frequency oscillations of uniformly rotating stars”, Monthly Notices of the Royal Astronomical Society,224, 513 – 526

    Google Scholar 

  1029. Lee U., Saio H. (1990). “Line profile variations caused by low-frequency nonradial pulsations of rapidly rotating stars”, Astrophysical Journal,349, 570 – 579

    Google Scholar 

  1030. Lee U., Saio H. (1997). “Low-frequency nonradial oscillations in rotating stars. I. Angular dependence”, Astrophysical Journal,491, 839 – 845

    Google Scholar 

  1031. Lee U., Jeffery C. S., Saio H. (1992). “Line profile variations caused by low-frequency non-radial pulsations of rapidly rotating stars. II”, Monthly Notices of the Royal Astronomical Society,254, 185 – 191

    Google Scholar 

  1032. Lefebvre S., Kosovichev A. G. (2005). “Changes in the subsurface stratification of the Sun with the 11-year activity cycle”, Astrophysical Journal,633, L149 – L152

    Google Scholar 

  1033. Lefebvre S., Kosovichev A. G., Rozelot J. P. (2007). “Helioseismic test of nonhomologous solar radius changes with the 11 year activity cycle”, Astrophysical Journal,658, L135 – L138

    Google Scholar 

  1034. Lefever K., Puls J., Aerts C., 2007a, “Statistical properties of a sample of periodically variable B-type supergiants. Evidence for opacity-driven gravity-mode oscillations”, Astronomy and Astrophysics,463, 1093 – 1109

    Google Scholar 

  1035. Lefever K., Puls J., Aerts C., 2007b, “A Grid of FASTWIND NLTE Model Atmospheres of Massive Stars”, In The Future of Photometric, Spectrophotometric and Polarimetric Standardization, Ed. C. Sterken, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 364, 545 – 550

    Google Scholar 

  1036. Lefèvre L., Marchenko S. V., Moffat A. F. J., Chené A. N., Smith S. R., St-Louis N., Matthews J. M., Kuschnig R., Guenther D. B., Poteet C. A., Rucinski S. M., Sasselov D., Walker G. A. H., Weiss W. W. (2005). “Oscillations in the Massive Wolf-Rayet Star WR 123 with the MOST Satellite”, Astrophysical Journal,634, L109 – L112

    Google Scholar 

  1037. Leibacher J., Stein R. F. (1971). “A new description of the solar five-minute oscillation”, Astrophys. Lett.,7, 191 – 192

    Google Scholar 

  1038. Leighton R. B. (1961). “(Untitled comment)”, IAU Symp. No. 12, Fourth Symposium on Cosmical Gas Dynamics: Aerodynamical Phenomena in Stellar Atmospheres, Ed. R. N. Thomas, Nuovo Cimento Suppl.,22, 321 – 325

    Google Scholar 

  1039. Leighton R. B., Noyes R. W., Simon G. W. (1962). “Velocity fields in the solar atmosphere I. Preliminary report”, Astrophysical Journal,135, 474 – 499

    Google Scholar 

  1040. Leone F., Catanzaro G., Catalano S. (2000). “Spectropolarimetric measurements of the mean longitudinal magnetic field of chemically peculiar stars. On the light, spectral and magnetic variability”, Astronomy and Astrophysics,355, 315 – 326

    Google Scholar 

  1041. Leone F., Kurtz D. W. (2003). “Discovery of magnetic field variations with the 12.1-minute pulsation period of the roAp star γ Equulei”, Astronomy and Astrophysics,407, L67 – L71

    Google Scholar 

  1042. Levato H., Malaroda S., Morrell N., Solivella G. (1987). “Stellar multiplicity in the Scorpius-Centaurus association”, Astrophysical Journal Supplement Series,64, 487 – 503

    Google Scholar 

  1043. Li, L. H., Robinson, F. J., Demarque, P., Sofia, S. (2002). “Inclusion of turbulence in solar modeling”, Astrophysical Journal, 567, 1192 – 1201

    Google Scholar 

  1044. Libbrecht K. G., 1988a, “Solar p-mode frequency splittings”, Seismology of the Sun, Sun-like Stars, 131 – 136, Eds V. Domingo, E. J. Rolfe, ESA SP-286, ESA Publications Division, Noordwijk, The Netherlands

    Google Scholar 

  1045. Libbrecht K. G., 1988b, “Radial velocity observations reveal multimode oscillations in Gamma Equulei”, Astrophysical Journal,330, L51 – L53

    Google Scholar 

  1046. Libbrecht K. G. (1989). “Solar p-mode frequency splittings”, Astrophysical Journal,336, 1092 – 1097

    Google Scholar 

  1047. Libbrecht K. G. (1992). “On the ultimate accuracy of solar oscillation frequency measurements”, Astrophysical Journal,387, 712 – 714

    Google Scholar 

  1048. Libbrecht K. G., Woodard M. F. (1990). “Solar-cycle effects on solar oscillation frequencies”, Nature,345, 779 – 782

    Google Scholar 

  1049. Libbrecht K. G., Woodard M. F., Kaufman J. M. (1990). “Frequencies of solar oscillation”, Astrophysical Journal Supplement Series,74, 1129 – 1149

    Google Scholar 

  1050. Liebert J. (1986). “The origin and evolution of helium-rich white dwarfs”, In IAU Colloquium 87: Hydrogen Deficient Stars and Related Objects, Dordrecht, D. Reidel Publishing Co., 128, 367 – 381

    Google Scholar 

  1051. Liebert J., Fleming T. A., Green R. F., Grauer A. D. (1988). “The nucleus of the planetary nebula VV 47 - Similarities with the pulsating PG1159-035/K1-16 variables”, Publications of the Astronomical Society of the Pacific,100, 187 – 191

    Google Scholar 

  1052. Lignières F., Georgeot B. (2008). “Wave chaos in rapidly rotating stars”, Phys. Rev. E, 78, 016215-(1–4)

    Google Scholar 

  1053. Lignières F., Georgeot B. (2009). “Asymptotic analysis of high-frequency acoustic modes in rapidly rotating stars”, Astronomy and Astrophysics,500, 1173 – 1192

    Google Scholar 

  1054. Lignières F., Rieutord M., Reese D. (2006). “Acoustic oscillations in rapidly rotating polytropic stars. I. Effects of the centrifugal distortion”, Astronomy and Astrophysics, 455, 607 – 620

    Google Scholar 

  1055. Lin C.-H., Antia H. M., Basu S. (2007). “Seismic study of the chemical composition of the solar convection zone”, Astrophysical Journal,668, 603 – 610

    Google Scholar 

  1056. Lindegren L., Dravins D. (2003). “The fundamental definition of “radial velocity””, Astronomy and Astrophysics,401, 1185 – 1201

    Google Scholar 

  1057. Little R. J. A., Rubin D. B. (2002). Statistical Analysis with Missing Data, 2nd Edition, Wiley Series in Probabilty and Statistics

    Google Scholar 

  1058. Liu Z.-E., Tang Y.-K., Gai N. (2008). “Solar-like Oscillations of the Red Giant ε Ophiuchi”, Chinese Astronomy and Astrophysics,32, 380 – 387

    Google Scholar 

  1059. Lloyd Evans T. (1975). “Near-infrared photometry of globular clusters - IV. The metal poor cluster NGC 6656 (M22)”, Monthly Notices of the Royal Astronomical Society,171, 647 – 657

    Google Scholar 

  1060. Lloyd Evans T. L. (1985). “Circumstellar material and the light variations of RV Tauri stars”, Monthly Notices of the Royal Astronomical Society,217, 493 – 506

    Google Scholar 

  1061. Lloyd Evans T. (1999). “The nature of RV Tauri stars”, In IAU Symposium 191: Asymptotic Giant Branch Stars, Eds T. Lebertre, A. Lèbre, C. Waelkens, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 191, 453 – 457

    Google Scholar 

  1062. Lochard, J., Samadi, R., Goupil, M.-J. (2004). “ηBoo inversion of simulated rotational profile”, Solar Physics, 220, 199 – 205

    Google Scholar 

  1063. Lochard J., Samadi R., Goupil M. J. (2005). “Rotation profile inversion in solar-like stars. In the COROT framework”, Astronomy and Astrophysics, 438, 939 – 948

    Google Scholar 

  1064. Löffler W. (2000). “g Modes in F stars – A Non-adiabatic Investigation of the Stability of g Modes in Gamma Doradus Stars”, In IAU Colloquium 176: The Impact of Large-Scale Surveys on Pulsating Star Research, Eds L. Szabados, D. W. Kurtz, Astronomical Society of the Pacific Conference Series, San Francisco, 203, 447 – 448

    Google Scholar 

  1065. Lomb N. R. (1976). “Least-squares frequency analysis of unequally spaced data”, Astrophysics and Space Science,39, 447 – 462

    Google Scholar 

  1066. Longuet-Higgins M. S. (1968). “The eigenfunctions of Laplace’s tidal equations over a sphere”, Phil. Trans. R. Soc. London, Series A,262, 511 – 607

    Google Scholar 

  1067. Loumos G. L., Deeming T. J. (1978). “Spurious results from Fourier analysis of data with closely spaced frequencies”, Astrophysics and Space Science,56, 285 – 291

    Google Scholar 

  1068. Lovekin C. C., Deupree R. G. (2008). “Radial and nonradial oscillation modes in rapidly rotating stars”, Astrophysical Journal,679, 1499 – 1508

    Google Scholar 

  1069. Lovekin C. C., Deupree R. G., Clement M. J. (2009). “Effects of uniform and differential rotation on stellar pulsations”, Astrophysical Journal, 693, 677 – 690

    Google Scholar 

  1070. Lovy D., Maeder A., Noels A., Gabriel M. (1984). “Supergiant variability - Theoretical pulsation periods and comparison with observations”, Astronomy and Astrophysics,133, 307 – 312

    Google Scholar 

  1071. Lucy L. B. (1967). “Gravity-darkening for stars with convective envelopes”, Zeitschrift für Astrophysik,65, 89 – 92

    Google Scholar 

  1072. Ludwig H.-G., Freytag B., Steffen M. (1999). “A calibration of the mixing-length for solar-type stars based on hydrodynamical simulations. I. Methodological aspects and results for solar metallicity”, Astronomy and Astrophysics, 346, 111 – 124

    Google Scholar 

  1073. Ludwig H.-G., Allard F., Hauschildt P. H. (2002). “Numerical simulations of surface convection in a late M-dwarf”, Astronomy and Astrophysics,395, 99 – 115

    Google Scholar 

  1074. Lüftinger T., Kochukhov O., Ryabchikova T., Piskunov N., Weiss W. W., Ilyin I. (2008). “3D atmospheric structure of the prototypical roAp star HD 24712 (HR 1217)”, Contributions of the Astronomical Observatory Skalnate Pleso,38, 335 – 340

    Google Scholar 

  1075. Lydon T. J., Fox P. A., Sofia S. (1992). “A formulation of convection for stellar structure and evolution calculations without the mixing-length theory approximations. I. Application to the Sun”, Astrophysical Journal, 397, 701 – 716

    Google Scholar 

  1076. Lydon T. J., Fox P. A., Sofia S. (1993). “A formulation of convection for stellar structure and evolution calculations without the mixing-length theory approximations. II. Application to α Centauri A and B”, Astrophysical Journal, 413, 390 – 400

    Google Scholar 

  1077. Lynds C. R. (1959). “The Light-Variability of Early B Giants”, Astrophysical Journal, 130, 577 – 598

    Google Scholar 

  1078. Lynden-Bell D., Ostriker J. P. (1967). “On the stability of differentially rotating bodies”, Monthly Notices of the Royal Astronomical Society, 136, 293 – 310

    Google Scholar 

  1079. Lyne A. G., Bailes M. (1992). “No Planet Orbiting PSR:1829-10”, Nature,355, 213 – 215

    Google Scholar 

  1080. Maas T., Van Winckel H., Waelkens C. (2002). “RU Cen and SX Cen: Two strongly depleted RV Tauri stars in binary systems. The RV Tauri photometric b phenomenon and binarity”, Astronomy and Astrophysics,386, 504 – 516

    Google Scholar 

  1081. MacGregor K. B., Charbonneau P. (1999). “Angular momentum transport in magnetized stellar radiative zones. IV. Ferraro’s theorem and the solar tachocline”, Astrophysical Journal,519, 911 – 917

    Google Scholar 

  1082. MacGregor K. B., Jackson S., Skumanich A., Metcalfe T. S. (2007). “On the structure and properties of differentially rotating, main-sequence stars in the 1 − 2M range”, Astrophysical Journal,663, 560 – 572

    Google Scholar 

  1083. Maeder A. (1975). “Stellar evolution III: the overshooting from convective cores”, Astronomy and Astrophysics,40, 303 – 310

    Google Scholar 

  1084. Maeder A. (1999). “Stellar evolution with rotation IV: von Zeipel’s theorem and anisotropic losses of mass and angular momentum”, Astronomy and Astrophysics,347, 185 – 193

    Google Scholar 

  1085. Maeder A. (2009). Physics, formation and evolution of rotating stars, Springer, Berlin

    Google Scholar 

  1086. Maeder A., Eenens P. (Eds) (2004). Proc. IAU Symposium No 215: Stellar Rotation, Astronomical Society of the Pacific, San Francisco

    Google Scholar 

  1087. Maeder A., Meynet G. (2000). “The evolution of rotating stars”, Annual Review of Astronomy and Astrophysics,38, 143 – 190

    Google Scholar 

  1088. Maeder A., Zahn J.-P. (1998). “Stellar evolution with rotation. III. Meridional circulation with μ-gradients and non-stationarity”, Astronomy and Astrophysics,334, 1000 – 1006

    Google Scholar 

  1089. Magee N. H., Merts A. L., Huebner W. F. (1984). “Is the metal contribution to the astrophysical opacity incorrect?”, Astrophysical Journal,283, 264 – 272

    Google Scholar 

  1090. Malanushenko V., Savanov I., Ryabchikova T. (1998). “Rapid radial velocity variations in roAp star γ Equ from lines of Nd iii and Pr iii ”, Information Bulletin on Variable Stars,4650, 1 – 4

    Google Scholar 

  1091. Mantegazza L. (2000). “Mode Detection from Line-Profile Variations”, In Delta Scuti and Related Stars, Eds M. Breger, M. H. Montgomery, Astronomical Society of the Pacific Conference Series, San Francisco, 210, 138 – 169

    Google Scholar 

  1092. Marchenko S. V., Moffat A. F. J. (1998). “Time-Frequency Analysis of Three Strongly Variable Wolf-Rayet Stars: WR 6, WR 134, and WR 123”, Astrophysical Journal,499, L195 – L199

    Google Scholar 

  1093. Marchenko S. V., Moffat A. F. J., van der Hucht K. A., Seggewiss W., Schrijver H., Stenholm B., Lundstrom I., Setia Gunawan D. Y. A., Sutantyo W., van den Heuvel E. P. J., de Cuyper J.-P., Gomez A. E., 1998a, “Wolf-Rayet stars and O-star runaways with HIPPARCOS. II. Photometry”, Astronomy and Astrophysics,331, 1022 – 1036

    Google Scholar 

  1094. Marchenko S. V., Moffat A. F. J., Eversberg T., Morel T., Hill G. M., Tovmassian G. H., Seggewiss W., 1998b, “A comprehensive variability study of the enigmatic WN8 stars - Final results”, Monthly Notices of the Royal Astronomical Society,294, 642 – 656

    Google Scholar 

  1095. Marchenkov K., Roxburgh I., Vorontsov S. (2000). “Non-linear inversion for the hydrostatic structure of the solar interior”, Monthly Notices of the Royal Astronomical Society,312, 39 – 50

    Google Scholar 

  1096. Marconi M., Palla F. (1998). “The Instability Strip for Pre-main-sequence Stars”, Astrophysical Journal,507, L141 – L144

    Google Scholar 

  1097. Marconi M., Palla F. (2004). “Pre-Main-Sequence A-type stars”, In Proc. IAU Symposium 224: The A-Star Puzzle, Eds J. Zverko, J. Zižňovský, S.J. Adelman, W.W. Weiss, Cambridge University Press, 224, 69 – 79

    Google Scholar 

  1098. Marcy G. W., Butler R. P. (1992). “Precision radial velocities with an iodine absorption cell”, Publications of the Astronomical Society of the Pacific,104, 270 – 277

    Google Scholar 

  1099. Markova N., Puls J. (2008). “Bright OB stars in the Galaxy. IV. Stellar and wind parameters of early to late B supergiants”, Astronomy and Astrophysics,478, 823 – 842

    Google Scholar 

  1100. Martens L., Smeyers P. (1982). “On the linear adiabatic oscillations of a uniformly and synchronously rotating component of a binary”, Astronomy and Astrophysics, 106, 317 – 326

    Google Scholar 

  1101. Martić M., Schmitt J., Lebrun J.-C., Barban C., Connes P., Bouchy F., Michel E., Baglin A., Appourchaux T., Bertaux J.-L. (1999). “Evidence for global pressure oscillations on Procyon”, Astronomy and Astrophysics,351, 993 – 1002

    Google Scholar 

  1102. Martinez P. (1993). The Cape Oscillating Ap Star Survey, PhD Dissertation, University of Cape Town, South Africa

    Google Scholar 

  1103. Martinez P., Kurtz D. W. (1990). “New observations and a frequency analysis of the extremely peculiar rapidly oscillating Ap star HD 101065”, Monthly Notices of the Royal Astronomical Society,242, 636 – 652

    Google Scholar 

  1104. Mashonkina L., Ryabchikova T., Ryabtsev A. (2005). “NLTE ionization equilibrium of Nd II and Nd III in cool A and Ap stars”, Astronomy and Astrophysics,441, 309 – 318

    Google Scholar 

  1105. Mathias P., Gillet D. (1993). “A new tool to study wave propagation: The Van Hoof effect”, Astronomy and Astrophysics,278, 511 – 519

    Google Scholar 

  1106. Mathias P., Gillet D., Crowe R. (1991). “A double shock wave atmospheric model for the Beta Cephei star Sigma Scorpii?”, Astronomy and Astrophysics,252, 245 – 254

    Google Scholar 

  1107. Mathias P., Aerts C., Gillet D., Waelkens C., 1994a, “A spectroscopic analysis of the beta Cephei star 12 Lacertae”, Astronomy and Astrophysics,289, 875 – 884

    Google Scholar 

  1108. Mathias P., Aerts C., De Pauw M., Gillet D., Waelkens C., 1994b, “A Spectroscopic Analysis of the Beta-Cephei Star Alpha-Lupi”, Astronomy and Astrophysics,283, 813 – 826

    Google Scholar 

  1109. Mathias P., Gillet D., Aerts C., Breitfellner M. G. (1997). “A spectroscopic study of the delta Scuti star rho Puppis”, Astronomy and Astrophysics,327, 1077 – 1086

    Google Scholar 

  1110. Mathias P., Aerts C., Briquet M., De Cat P., Cuypers J., Van Winckel H., Le Contel J. M. (2001). “Spectroscopic monitoring of 10 new northern slowly pulsating B star candidates discovered from the HIPPARCOS mission”, Astronomy and Astrophysics,379, 905 – 916

    Google Scholar 

  1111. Mathias P., Le Contel J.-M., Chapellier E., Jankov S., Sareyan J.-P., Poretti E., Garrido R., Rodríguez E., Arellano Ferro A., Alvarez M., Parrao L., Peña J., Eyer L., Aerts C., De Cat P., Weiss W. W., Zhou A. (2004). “Multi-site, multi-technique survey of γ Doradus candidates. I. Spectroscopic results for 59 stars”, Astronomy and Astrophysics, 417, 189 – 199

    Google Scholar 

  1112. Mathis S., Zahn J.-P. (2004). “Transport and mixing in the radiation zones of rotating stars. I. Hydrodynamical processes”, Astronomy and Astrophysics,425, 229 – 242 (Erratum: Astronomy and Astrophysics,462, 1063 – 1064; 2007)

    Google Scholar 

  1113. Mathur S., Eff-Darwich A., García R. A., Turck-Chièze S. (2008). “Sensitivity of helioseismic gravity modes to the dynamics of the solar core”, Astronomy and Astrophysics,484, 517 – 522

    Google Scholar 

  1114. Mathys G. (1991). “Spectropolarimetry of magnetic stars. II - The mean longitudinal magnetic field”, Astronomy and Astrophysics Supplement Series,89, 121 – 157

    Google Scholar 

  1115. Mathys G., Hubrig S. (1997). “Spectropolarimetry of magnetic stars. VI. Longitudinal field, crossover and quadratic field: New measurements”, Astronomy and Astrophysics Supplement Series,124, 475 – 497

    Google Scholar 

  1116. Mathys G., Kurtz D. W., Elkin V. G. (2007). “Pulsation in the presence of a strong magnetic field: the roAp star HD 166473”, Monthly Notices of the Royal Astronomical Society,380, 181 – 198

    Google Scholar 

  1117. Matthews J. M., Wehlau W. H., Walker G. A. H., Yang S. (1988). “Detection of radial velocity variations in the rapidly oscillating Ap star HR 1217”, Astrophysical Journal,324, 1099 – 1105

    Google Scholar 

  1118. Matthews J. M., Walker G. A. H., Wehlau W. H. (1990). “Rapid infrared photometry of pulsating Ap stars - A measurement of stellar limb darkening”, Astrophysical Journal,365, L81 – L84

    Google Scholar 

  1119. Matthews J. M., Wehlau W. H., Rice J., Walker G. A. H. (1996). “Opening a New Window on Ap Star Atmospheres: A T-τ Relation for HR 3831 from Its Limb-darkened Pulsation Amplitudes”, Astrophysical Journal,459, 278 – 287

    Google Scholar 

  1120. Matthews J. M., Kurtz D. W., Martinez P. (1999). “Parallaxes versus p-Modes: Comparing HIPPARCOS and Asteroseismic Results for Pulsating Ap Stars”, Astrophysical Journal,511, 422 – 428

    Google Scholar 

  1121. Matsuno T. (1966). “Quasi-geostrophic motions in the equatorial area”, Journal of the Meteorological Society of Japan,44, 25 – 43

    Google Scholar 

  1122. Maxted P. F. L., Heber U., Marsh T. R., North R. C. (2001). “The binary fraction of extreme horizontal branch stars”, Monthly Notices of the Royal Astronomical Society, 326, 1391 – 1402

    Google Scholar 

  1123. Mayor M. (1980). “Metal abundances of F and G dwarfs determined by the radial velocity scanner CORAVEL”, Astronomy and Astrophysics,87, L1 – L2

    Google Scholar 

  1124. Mayor M., Queloz D. (1995). “A Jupiter-Mass Companion to a Solar-Type Star”, Nature,378, 355 – 357

    Google Scholar 

  1125. Mazumdar A. (2005). “Asteroseismic diagrams for solar-type stars”, Astronomy and Astrophysics, 441, 1079 – 1086

    Google Scholar 

  1126. Mazumdar A., Antia H. M. (2001). “Seismic study of stellar convective cores”, Astronomy and Astrophysics, 377, 192 – 205

    Google Scholar 

  1127. Mazumdar A., Basu S., Collier B. L., Demarque P., 2006a, “Asteroseismic diagnostics of stellar convective cores”, Monthly Notices of the Royal Astronomical Society,372, 949 – 958

    Google Scholar 

  1128. Mazumdar A., Briquet M., Desmet M., Aerts C., 2006b, “An asteroseismic study of the β Cephei star β Canis Majoris”, Astronomy and Astrophysics,459, 589 – 596

    Google Scholar 

  1129. McAlister H. A., Mason B. D., Hartkopf W. I., Shara M. M. (1993). “ICCD speckle observations of binary stars. X - A further survey for duplicity among the bright stars”, Astronomical Journal,106, 1639 – 1655

    Google Scholar 

  1130. McCarthy D. D. (2005). “Precision time and the rotation of the Earth”, IAU Colloq. 196: Transits of Venus: New Views of the Solar System and Galaxy, 180 – 197

    Google Scholar 

  1131. McCook G. P., Sion E. M. (1999). “A Catalog of Spectroscopically Identified White Dwarfs”, Astrophysical Journal Supplement Series,121, 1 – 130

    Google Scholar 

  1132. McCullagh P., Nelder J. A. (1989). Generalized linear models, 2nd Edition, Chapman and Hall, New York

    Google Scholar 

  1133. McDonald A. B. (2004). “Solar neutrinos”, New Journal of Physics,6-121, 1 – 17

    Google Scholar 

  1134. McDermott P. N., van Horn H. M., Hansen C. J. (1988). “Nonradial oscillations of neutron stars”, Astrophysical Journal,325, 725 – 748

    Google Scholar 

  1135. McGraw J. T., Liebert J., Starrfield S. G., Green R., 1979a, “PG1159-035: A new, hot, non-DA pulsating degenerate”, In Proc. IAU Colloquium 53: White Dwarfs and Variable Degenerate Stars, University of Rochester, 377 – 381

    Google Scholar 

  1136. McGraw J. T., Starrfield S. G., Angel J. R. P., Carleton N. P., 1979b, “PG1159-035: an MMT discovery of a new short-period variable star.”, In The MMT and the future of ground-based astronomy Ed. T. C. Weekes, SAO Special Report 385, 125 – 130

    Google Scholar 

  1137. McNamara D. H. (1952). “The Spectrum and Velocity-Curve of ν Eridani”, Publications of the Astronomical Society of the Pacific,64, 76 – 76

    Google Scholar 

  1138. McNamara D. H. (1957). “The Radial Velocity of θ Ophiuchi”, Publications of the Astronomical Society of the Pacific,69, 570 – 572

    Google Scholar 

  1139. McNamara D. H. (1995). “Period-luminosity relations of SX Phoenicis stars”, Astronomical Journal,109, 1751 – 1756

    Google Scholar 

  1140. Mȩdrek M., Murawski K., Roberts B. (1999). “Damping and frequency reduction of the f-mode due to turbulent motion in the solar convection zone”, Astronomy and Astrophysics,349, 312 – 316

    Google Scholar 

  1141. Medupe R. (2002). Studies of non-adiabatic pulsations in the atmospheres of the roAp stars, PhD Dissertation, University of Cape Town, South Africa

    Google Scholar 

  1142. Medupe R., Christensen-Dalsgaard J., Kurtz D. W. (2002). “Applications of non-adiabatic radial pulsation equations to roAp stars”, In IAU Colloq. 185: Radial and Nonradial Pulsations as Probes of Stellar Physics, Eds C. Aerts, T. R. Bedding, J. Christensen-Dalsgaard, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 259, 296 – 299

    Google Scholar 

  1143. Méndez R. H., Verga A. D., Kriner A. (1983). “The Photometric and Radial Velocity Variations of the Central Star of the Planetary Nebula IC4187”, Revista Mexicana de Astronomia y Astrofisica,8, 175

    Google Scholar 

  1144. Merline W. J. (1999). “Precise Velocity Observation of K-Giants: Evidence for Solar-Like Oscillations in Arcturus”, In IAU Colloquium 170: Precise Stellar Radial Velocities, Eds J. B. Hearnshaw, C. D. Scarfe, Astronomical Society of the Pacific Conference Series, San Francisco, 185, 187 – 192

    Google Scholar 

  1145. Mermilliod J.-C., Maeder A. (1986). “Evolution of massive stars: comparison of cluster sequences and models with mass loss”, Astronomy and Astrophysics, 158, 45 – 59

    Google Scholar 

  1146. Metcalfe T. S., Charbonneau P. (2003). “Stellar structure modeling using a parallel genetic algorithm for objective global optimization”, Journal of Computational Physics, 185, 176 – 193

    Google Scholar 

  1147. Metcalfe T. S., Salaris M., Winget D. E. (2002). “Measuring 12C(α, γ)16O from white dwarf asteroseismology”, Astrophysical Journal, 573, 803 – 811

    Google Scholar 

  1148. Metcalfe T. S., Montgomery M. H., Kanaan A. (2004). “Testing white dwarf crystallization theory with asteroseismology of the massive pulsating DA star BPM 37093”, Astrophysical Journal,605, L133 – L136

    Google Scholar 

  1149. Metcalfe T. S., Dziembowski W. A., Judge P. G., Snow M. (2007). “Asteroseismic signatures of stellar magnetic activity cycles”, Monthly Notices of the Royal Astronomical Society, 379, L16 – L20

    Google Scholar 

  1150. Meynet, G., Maeder, A. (2000). “Stellar evolution with rotation. V. Changes in all the outputs of massive star models”, Astronomy and Astrophysics, 361, 101 – 120

    Google Scholar 

  1151. Michaud G. (1970). “Diffusion processes in peculiar A stars”, Astrophysical Journal, 160, 641 – 658

    Google Scholar 

  1152. Michaud G., Proffitt C. R. (1993). “Particle transport processes”, In Proc. IAU Colloq. 137: Inside the stars, Eds A. Baglin, W. W. Weiss, Astronomical Society of the Pacific Conference Series, San Francisco, 40, 246 – 259

    Google Scholar 

  1153. Michaud G., Tarasick D., Charland Y., Pelletier C. (1983). “Diffusion, meridional circulation, and mass loss in Fm-Am stars”, Astrophysical Journal,269, 239 – 249

    Google Scholar 

  1154. Michaud G., Richer J., Richard O. (2007). “Horizontal branch evolution and atomic diffusion”, Astrophysical Journal,670, 1178 – 1187

    Google Scholar 

  1155. Michel E., Baglin A., Weiss W. W., Auvergne M., Catala C., Aerts C., Appourchaux T., Barban C., Baudin F., Briquet M., Carrier F., Degroote P., De Ridder J., Garcia R. A., Garrido R., Gutiérrez-Soto J., Kallinger T., Lefevre L., Neiner C., Poretti E., Samadi R., Sarro L., Alecian G., Andrade L., Ballot J., Benomar O., Berthomieu G., Boumier P., Charpinet S., de Batz B., Deheuvels S., Dupret M.-A., Emilio M., Fabregat J., Facanha W., Floquet M., Frémat Y., Fridlund M., Goupil M.-J., Grotsch-Noels A., Handler G., Huat A.-L., Hubert A.-M., Janot-Pacheco E., Kjeldsen H., Lebreton Y., Leroy B., Martayan C., Mathias P., Miglio A., Montalban J., Monteiro M. J. P. F. G., Mosser B., Provost J, Regulo C., Renan de Medeiros J., Ribas I., Roca Cortés T., Roxburgh I., Suso J., Thoul A., Toutain T., Tiphene D., Turck-Chieze S., Vauclair S., Vauclair G., Zwintz K. (2008). “First asteroseismic results from CoRoT”, Communications in Asteroseismology,156, 73 – 87

    Google Scholar 

  1156. Miesch M. S., Brun A. S., Toomre J. (2006). “Solar differential rotation influenced by latitudinal entropy variations in the tachocline”, Astrophysical Journal,641, 618 – 625

    Google Scholar 

  1157. Miglio A., Montalbán J. (2005). “Constraining fundamental stellar parameters using seismology. Application to α Centauri AB”, Astronomy and Astrophysics, 441, 615 – 629

    Google Scholar 

  1158. Miglio A., Montalbán J., Dupret M.-A. (2007). “Instability strips of slowly pulsating B stars and β Cephei stars: the effect of the updated OP opacities and of the metal mixture”, Monthly Notices of the Royal Astronomical Society,375, L21 – L25

    Google Scholar 

  1159. Miglio A., Montalbán J., Noels A., Eggenberger P. (2008). “Probing the properties of convective cores through g modes: high-order g modes in SPB and γ Doradus stars”, Monthly Notices of the Royal Astronomical Society,386, 1487 – 1502

    Google Scholar 

  1160. Mihalas B. W., Toomre J. (1981). “Internal gravity waves in the solar atmosphere. I. Adiabatic waves in the chromosphere”, Astrophysical Journal, 249, 349 – 371

    Google Scholar 

  1161. Mihalas B. W., Toomre J. (1982). “Internal gravity waves in the solar atmosphere. II. Effects of radiative damping”, Astrophysical Journal, 263, 386 – 408

    Google Scholar 

  1162. Mihalas D. (1978). Stellar atmospheres, 2nd edition, San Francisco, W. H. Freeman and Co.

    Google Scholar 

  1163. Mihalas D., Mihalas B. W. (1984). Foundations of Radiation Hydrodynamics, Oxford University Press

    Google Scholar 

  1164. Mihalas D., Däppen W., Hummer D. G. (1988). “The equation of state for stellar envelopes. II. Algorithm and selected results”, Astrophysical Journal,331, 815 – 825

    Google Scholar 

  1165. Mihalas D., Hummer D. G., Mihalas B. W., Däppen W. (1990). “The equation of state for stellar envelopes. IV. Thermodynamic quantities and selected ionization fractions for six elemental mixes”, Astrophysical Journal,350, 300 – 308

    Google Scholar 

  1166. Mkrtichian D. E., Hatzes A. P. (2005). “HD 101065, the Most Peculiar Star: First Results from Precise Radial Velocity Study”, Journal of Astrophysics and Astronomy,26, 185 – 191

    Google Scholar 

  1167. Mkrtichian D. E., Hatzes A. P., Kanaan A. (2003). “Radial velocity variations in pulsating Ap stars - II. 33 Librae”, Monthly Notices of the Royal Astronomical Society,345, 781 – 794

    Google Scholar 

  1168. Mkrtichian D. E., Kusakin A. V., Rodriguez E., Gamarova A. Y., Kim C., Kim S.-L., Lee J. W., Youn J.-H., Kang Y. W., Olson E. C., Grankin K. (2004). “Frequency spectrum of the rapidly-oscillating mass-accreting component of the Algol-type system AS Eri”, Astronomy and Astrophysics,419, 1015 – 1024

    Google Scholar 

  1169. Mkrtichian D. E., Hatzes A. P., Saio H., Shobbrook, R.R. (2008). “The detection of the rich p-mode spectrum and asteroseismology of Przbylski’s star”, Astronomy and Astrophysics,490, 1109 – 1120

    Google Scholar 

  1170. Molenberghs G., Verbeke G. (2005). Models for Discrete Longitudinal Data, Springer Series in Statistics

    Google Scholar 

  1171. Monnier J. D., Zhao M., Pedretti E., Thureau N., Ireland M., Muirhead P., Berger J.-P., Millan-Gabet R., Van Belle G., ten Brummelaar T., McAlister H., Ridgeway S., Turner N., Sturmann L., Sturmann J., Berger D. (2007). “Imaging the surface of Altair”, Science,317, 342 – 345

    Google Scholar 

  1172. Montalbán J., Miglio A., Noels A., Grevesse N., Di Mauro M. P. (2004). “Solar model with CNO revised abundances”, In Proc. SOHO 14 - GONG 2004: “Helio- and Asteroseismology: Towards a golden future”; Yale, July 12 – 16 2004, Ed. D. Danesy, ESA SP-559, ESA Publication Division, Noordwijk, The Netherlands, 574 – 576

    Google Scholar 

  1173. Montalbán J., Théado S., Lebreton Y. (2007). “Comparisons for ESTA-TASK3: CLES and CESAM”, In Stellar Evolution and Seismic Tools for Asteroseismology: Diffusive Processes in Stars and Seismic Analysis, Eds C. W. Straka, Y. Lebreton, M. J. P. F. G. Monteiro, European Astronomical Society Publication Series, 26, EDP Sciences, Les Ulis, France, 167 – 176

    Google Scholar 

  1174. Monteiro M. J. P. F. G., Christensen-Dalsgaard J., Thompson M. J. (1994). “Seismic study of overshoot at the base of the solar convective envelope”, Astronomy and Astrophysics,283, 247 – 262

    Google Scholar 

  1175. Monteiro M. J. P. F. G., Christensen-Dalsgaard J., Thompson M. J. (2000). “Seismic study of stellar convective regions: the base of convective envelopes in low-mass stars”, Monthly Notices of the Royal Astronomical Society,316, 165 – 172

    Google Scholar 

  1176. Monteiro M. J. P. F. G., Christensen-Dalsgaard J., Thompson M. J. (2002). “Asteroseismic Inference for Solar-Type Stars”, In Proc. 1st Eddington Workshop, ‘Stellar Structure and Habitable Planet Finding’, Eds F. Favata, I. W. Roxburgh and D. Galadí-Enríquez, ESA SP-485, ESA Publications Division, Noordwijk, The Netherlands, 291 – 298

    Google Scholar 

  1177. Monteiro M. J. P. F. G., Lebreton Y., Montalbán J., Christensen-Dalsgaard J., Castro M., Degl’Innocenti S., Moya A., Roxburgh I. W., Scuflaire R., Baglin A., Cunha M. S., Eggenberger P., Fernandes J., Goupil M. J., Hui-Bon-Hoa A., Marconi M., Marques J. P., Michel E., Miglio A., Morel P., Pichon B., Prada P. G., Provost J., Ruoppo A., Suárez J.-C., Suran M., Teixeira T. C. (2006). “Report on the CoRoT evolution and seismic tools activity”, In The CoRoT Mission. Pre-launch Status. Stellar Seismology and Planet Finding, eds M. Fridlund, A. Baglin, J. Lochard, L. Conroy, ESA SP-1306, ESA Publications Division, Noordwijk, The Netherlands, 363 – 371

    Google Scholar 

  1178. Montgomery M. H. (2005). “A New Technique for Probing Convection in Pulsating White Dwarf Stars”, Astrophysical Journal,633, 1142 – 1149

    Google Scholar 

  1179. Montgomery M. H. (2008). “What We Can Learn from the Light Curves of GD 358 and PG 1351+489”, Communications in Asteroseismology,154, 38 – 48

    Google Scholar 

  1180. Montgomery M. H., Breger M. (Eds) (2000). Delta Scuti and Related Stars, Astronomical Society of the Pacific Conference Series, San Francisco, 210

    Google Scholar 

  1181. Montgomery M. H., O’Donoghue D. (1999). “A derivation of the errors for least squares fitting to time series data”, Delta Scuti Star Newsletter,13, 28 – 31

    Google Scholar 

  1182. Montgomery M. H., Winget D. E. (1999). “The Effect of Crystallization on the Pulsations of White Dwarf Stars”, Astrophysical Journal,526, 976 – 990

    Google Scholar 

  1183. Montgomery M. H., Metcalfe T. S., Winget D. E. (2003). “The core/envelope symmetry in pulsating stars”, Monthly Notices of the Royal Astronomical Society, 344, 657 – 664

    Google Scholar 

  1184. Montgomery M. H., Williams K. A., Winget D. E., Dufour P., DeGennaro S., Liebert J. (2008). “SDSS J142625.71+575218.3: A Prototype for a New Class of Variable White Dwarf”, Astrophysical Journal,678, L51 – L54

    Google Scholar 

  1185. Moon T. T., Dworetsky M. M. (1985). “Grids for the determination of effective temperature and surface gravity of B, A and F stars using uvby-beta photometry”, Monthly Notices of the Royal Astronomical Society,217, 305 – 315

    Google Scholar 

  1186. Morales-Rueda L., Maxted P. F. L., Marsh T. R., North R. C., Heber U. (2003). “Orbital periods of 22 subdwarf B stars”, Monthly Notices of the Royal Astronomical Society,338, 752 – 764

    Google Scholar 

  1187. Morales-Rueda L., Marsh T. R., Maxted P. F. L., Nelemans G., Karl C., Napiwotzki R., Moran C. K. J. (2005). “Six detached white-dwarf close binaries”, Monthly Notices of the Royal Astronomical Society,359, 648 – 662

    Google Scholar 

  1188. Morel, P. (1997). “CESAM: a code for stellar evolution calculations”, Astronomy and Astrophysics Supplement Series, 124, 597 – 614

    Google Scholar 

  1189. Morel P., Provost J., Lebreton Y., Thévenin F., Berthomieu G. (2000). “Calibrations of α Cen A, B”, Astronomy and Astrophysics, 363, 675 – 691

    Google Scholar 

  1190. Morel T., Butler K., Aerts C., Neiner C., Briquet M. (2006). “Abundance analysis of prime B-type targets for asteroseismology. I. Nitrogen excess in slowly-rotating β Cephei stars”, Astronomy and Astrophysics,457, 651 – 663

    Google Scholar 

  1191. Moskalik P., Dziembowski W. A. (1992). “New opacities and the origin of the β Cephei pulsation”, Astronomy and Astrophysics,256, L5 – L8

    Google Scholar 

  1192. Moskalik P., Dziembowski W. A. (2005). “Seismology of triple-mode classical Cepheids of the Large Magellanic Cloud”, Astronomy and Astrophysics,434, 1077 – 1084

    Google Scholar 

  1193. Moskalik P., Poretti E. (2003). “Fourier decomposition and frequency analysis of the pulsating stars with P < 1 d in the OGLE database. II. Multiperiodic RR Lyrae variables in the Galactic Bulge”, Astronomy and Astrophysics,398, 213 – 222

    Google Scholar 

  1194. Moskalik P., Buchler J. R., Marom A. (1992). “Toward a resolution of the bump and beat Cepheid mass discrepancies”, Astrophysical Journal,385, 685 – 693

    Google Scholar 

  1195. Mosser B., and the Siamois Team (2007). “A Fourier Tachometer at Dome C in Antarctica”, Communications in Asteroseismology,150, 309 – 310

    Google Scholar 

  1196. Moya A., Christensen-Dalsgaard J., Charpinet S., Lebreton Y., Miglio A., Montalbán J., Monteiro M. J. P. F. G., Provost J., Roxburgh I. W., Scuflaire R., Suárez J. C., Suran M. (2008). “Inter-comparison of the g-, f- and p-modes calculated using different oscillation codes for a given stellar model”, Astrophysics and Space Science,316, 231 – 249

    Google Scholar 

  1197. Mukadam A. S., Mullally F., Nather R. E., Winget D. E., von Hippel T., Kleinman S. J., Nitta A., Krzesiński J., Kepler S. O., Kanaan A., Koester D., Sullivan D. J., Homeier D., Thompson S. E., Reaves D., Cotter C., Slaughter D., Brinkmann J., 2004a, “Thirty-Five New Pulsating DA White Dwarf Stars”, Astrophysical Journal,607, 982 – 998

    Google Scholar 

  1198. Mukadam A. S., Winget D. E., von Hippel T., Montgomery M. H., Kepler S. O., Costa A. F. M., 2004b, “Redefining the Empirical ZZ Ceti Instability Strip”, Astrophysical Journal,612, 1052 – 1059

    Google Scholar 

  1199. Mukadam A. S., Montgomery M. H., Winget D. E., Kepler S. O., Clemens J. C. (2006). “Ensemble characteristics of the ZZ Ceti stars”, Astrophysical Journal,640, 956 – 965

    Google Scholar 

  1200. Mullally F., Thompson S. E., Castanheira B. G., Winget D. E., Kepler S. O., Eisenstein D. J., Kleinman S. J., Nitta A. (2005). “Eleven New DA White Dwarf Variable Stars from the Sloan Digital Sky Survey”, Astrophysical Journal,625, 966 – 972

    Google Scholar 

  1201. Munteanu A., Bono G., José J., García-Berro E., Stellingwerf R. F. (2005). “Limit-cycle behaviour in one-zone convective models”, Astrophysical Journal,627, 454 – 463

    Google Scholar 

  1202. Murawski K., Duvall T. L., Kosovichev A. G. (1998). “Damping and frequency shift of the solar f-mode due to the interaction with turbulent convection”, In Structure and dynamics of the interior of the Sun and Sun-like stars; Proc. SOHO 6/GONG 98 Workshop, Eds S. G. Korzennik, A. Wilson, ESA SP-418, ESA Publications Division, Noordwijk, The Netherlands, 825 – 828

    Google Scholar 

  1203. Murphy J. W., Burrows A., Heger A. (2004). “Pulsational Analysis of the Cores of Massive Stars and Its Relevance to Pulsar Kicks”, Astrophysical Journal,615, 460 – 474

    Google Scholar 

  1204. Musman S., Rust D. M. (1970). “Vertical velocities and horizontal wave propagation in the solar photosphere”, Solar Physics,13, 261 – 286

    Google Scholar 

  1205. Narwid A., Kołaczkowski Z., Pigulski A., Ramza T. (2006). “β Cephei stars in the inner part of the Galaxy”, Memorie della Societa Astronomica Italiana,77, 342 – 343

    Google Scholar 

  1206. Nather R. E., Robinson E. L. (1974). “Coherent oscillations in UX Ursae Majoris”, Astrophysical Journal,190, 637 – 651

    Google Scholar 

  1207. Nather R. E., Winget D. E., Clemens J. C., Hansen C. J., Hine B. P. (1990). “The whole earth telescope - A new astronomical instrument”, Astrophysical Journal,361, 309 – 317

    Google Scholar 

  1208. Natta A., Grinin V. P., Mannings V., Ungerechts H. (1997). “The Evolutionary Status of UX Orionis-Type Stars”, Astrophysical Journal,491, 885 – 890

    Google Scholar 

  1209. Neiner C. (2007). “Magnetic Field Measurements in OB Stars”, In Active OB-Stars: Laboratories for Stellare and Circumstellar Physics, Eds S. Stefl, S. P. Owocki, A. T. Okazaki, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 361, 91

    Google Scholar 

  1210. Neuforge-Verheecke C., Magain P. (1997). “Spectroscopic analysis of the Alpha Centauri system”, Astronomy and Astrophysics, 328, 261 – 268

    Google Scholar 

  1211. Niemczura E., Daszyńska-Daszkiewicz J. (2005). “Metallicities of the β Cephei stars from low-resolution ultraviolet spectra”, Astronomy and Astrophysics,433, 659 – 669

    Google Scholar 

  1212. Nigam R., Kosovichev A. G. (1998). “Measuring the Sun’s eigenfrequencies from velocity and intensity helioseismic spectra: asymmetrical line profile-fitting formula”, Astrophysical Journal,505, L51 – L54

    Google Scholar 

  1213. Nigam R., Kosovichev A. G. (1999). “Source of solar acoustic modes”, Astrophysical Journal,514, L53 – L56

    Google Scholar 

  1214. Nishikawa J. (1986). “Detection of solar five-minute oscillations through white-light intensity”, Solar Physics,38, 277 – 283

    Google Scholar 

  1215. Nitta A., Kleinman S. J., Krzesinski J., Metcalfe T. S., Mukadam A., Mullally F., Nather R. E., Sullivan D. J., Thompson S. E., Winget D. E., Wood M. A. (2007). “Doubling the number of DBVs and a closer look at their Instability Strip”, Communications in Asteroseismology,150, 249 – 250

    Google Scholar 

  1216. Noels A., Grevesse N., Magain P., Neuforge C., Baglin A., Lebreton Y. (1991). “Calibration of the α Centauri system: metallicity and age”, Astronomy and Astrophysics, 247, 91 – 94

    Google Scholar 

  1217. Nordlund, Å., Stein, R. F., Asplund, M. (2009). “Solar surface convection”, Living Reviews in Solar Physics, 6, 2. URL (cited on 5/5/09): http://www.livingreviews.org/lrsp-2009-2

    Google Scholar 

  1218. Nowakowski R. M. (2005). “Multimode resonant coupling in pulsating stars”, Acta Astronomica, 55, 1 – 41

    Google Scholar 

  1219. Nuspl J., Bíró I. B. (2002). “Eclipse Mapping of Non-Radial Pulsation in Binary Stars”, In IAU Colloquium 185: Radial and Nonradial Pulsations as Probes of Stellar Physics, Eds C. Aerts, T. R. Bedding, J. Christensen-Dalsgaard, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 259, 100 – 101

    Google Scholar 

  1220. Nuspl J., Biro B. I., Hegedus T. (2004). “Reconstruction of dynamical features in eclipsing binaries”, In Spectroscopically and Spatially Resolving the Components of the Close Binary Stars, Eds R. W. Hilditch, H. Hensberge, K. Pavlovski, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 318, 350 – 352

    Google Scholar 

  1221. O’Brien M. S., Kawaler S. D. (2000). “The Predicted Signature of Neutrino Emission in Observations of Pulsating Pre-White Dwarf Stars”, Astrophysical Journal,539, 372 – 378

    Google Scholar 

  1222. Ohshima O., Narusawa S.-y., Akazawa H., Arai K., Fujii M., Kawabata T., Morikawa K., Ohkura N., Takeuti M. (2001). “Short-Period Light Variation of an Eclipsing Binary System: RZ Cassiopeiae”, Astronomical Journal,122, 418 – 424

    Google Scholar 

  1223. Okazaki A. T., Owocki S. P., Stefl S. (Eds) (2007). Active OB-Stars: Laboratories for Stellare and Circumstellar Physics, Astronomical Society of the Pacific Conference Series, 361

    Google Scholar 

  1224. Olech A., Dziembowski W. A., Pamyatnykh A. A., Kaluzny J., Pych W., Schwarzenberg-Czerny A., Thompson I. B. (2005). “Cluster Ages Experiment (CASE): SX Phe stars from the globular cluster ω Centauri”, Monthly Notices of the Royal Astronomical Society,363, 40 – 48

    Google Scholar 

  1225. Olivier E. A., Wood P. R. (2005). “Non-linear pulsation models of red giants”, Monthly Notices of the Royal Astronomical Society,362, 1396 – 1412

    Google Scholar 

  1226. Oosterhoff P. T. (1944). “Discussion of photographic magnitudes of bright northern stars, together with new mean values in King’s photographic system”, Bulletin of the Astronomical Institutes of the Netherlands,10, 45 – 55

    Google Scholar 

  1227. Origlia L., Rood R. T., Fabbri S., Ferraro F. R., Fusi Pecci F., Rich R. M. (2007). “The first empirical mass-loss law for population II giants”, Astrophysical Journal,667, L85 – L88

    Google Scholar 

  1228. Osaki Y. (1971). “Non-Radial Oscillations and the Beta Canis Majoris Phenomenon”, Publications of the Astronomical Society of Japan,23, 485 – 502

    Google Scholar 

  1229. Osaki Y. (1974). “An excitation mechanism for pulsations in beta Cephei stars”, Astrophysical Journal,189, 469 – 477

    Google Scholar 

  1230. Osaki Y. (1975). “Nonradial oscillations of a 10 solar mass star in the main-sequence stage”, Publications of the Astronomical Society of Japan, 27, 237 – 258

    Google Scholar 

  1231. Østensen R. H. (Ed.) (2006). The 2nd Meeting on Hot Subdwarf Stars and Related Objects, Baltic Astronomy,15

    Google Scholar 

  1232. Østensen R. (2008). “DAS User Manual”, Communications in Asteroseismology,155, 7 – 16

    Google Scholar 

  1233. Ostlie D. A., Cox A. N. (1986). “A linear survey of the Mira variable star instability region of the Hertzsprung-Russell diagram”, Astrophysical Journal,311, 864 – 872

    Google Scholar 

  1234. Otí Floranes H., Christensen-Dalsgaard J., Thompson M. J. (2005). “The use of frequency-separation ratios for asteroseismology”, Monthly Notices of the Royal Astronomical Society, 356, 671 – 679

    Google Scholar 

  1235. Oudmaijer R. D., van der Veen W. E. C. J., Waters L. B. F. M., Trams N. R., Waelkens C., Engelsman E. (1992). “SAO stars with infrared excess in the IRAS Point Source Catalog”, Astronomy and Astrophysics Supplement Series,96, 625 – 643

    Google Scholar 

  1236. Paardekooper S. J., Veen P. M., van Genderen A. M., van der Hucht K. A. (2002). “On the variability of the visual binary WR86. WC7 with a β-Cephei companion”, Astronomy and Astrophysics,384, 1012 – 1022

    Google Scholar 

  1237. Paczyński B. (1965). “Cataclysmic variables among binary stars. I. U Geminorum stars”, Acta Astronomica,15, 89 – 102

    Google Scholar 

  1238. Paczyński B. (1971). “Evolution processes in close binary systems”, Annual Review of Astronomy and Astrophysics,9, 183 – 208

    Google Scholar 

  1239. Paczyński B. (1986). “Gravitational microlensing by the galactic halo”, Astrophysical Journal,304, 1 – 5

    Google Scholar 

  1240. Pamyatnykh A. A. (1999). “Pulsational instability domains in the upper main sequence”, Acta Astronomica,49, 119 – 148

    Google Scholar 

  1241. Pamyatnykh A. A., Vorontsov S. V., Däppen W. (1991). “A calibration of solar envelope models using the frequencies of intermediate-degree solar acoustic oscillations”, Astronomy and Astrophysics,248, 263 – 269

    Google Scholar 

  1242. Pamyatnykh A. A., Dziembowski W. A., Handler G., Pikall H. (1998). “Towards a seismic model of the delta Scuti star XX Pyxidis”, Astronomy and Astrophysics,333, 141 – 150

    Google Scholar 

  1243. Pamyatnykh A. A., Handler G., Dziembowski W. A. (2004). “Asteroseismology of the β Cephei star ν Eridani: interpretation and applications of the oscillation spectrum”, Monthly Notices of the Royal Astronomical Society,350, 1022 – 1028

    Google Scholar 

  1244. Papaloizou J., Pringle J. E. (1978). “Non-radial oscillations of rotating stars and their relevance to the short-period oscillations of cataclysmic variables”, Monthly Notices of the Royal Astronomical Society,182, 423 – 442

    Google Scholar 

  1245. Parker E. N. (1958). “Dynamics of the interplanetary gas and magnetic fields”, Astrophysical Journal, 128, 664 – 676

    Google Scholar 

  1246. Parker R. L. (1977). “Understanding inverse theory”, Annual Review of Earth Planetary Science,5, 35 – 64

    Google Scholar 

  1247. Parsons S. B. (1972). “The Conversion Factor from Radial to Pulsational Velocity and the Radii of Classical Cepheids”, Astrophysical Journal,174, 57 – 68

    Google Scholar 

  1248. Patriarchi P., Perinotto M. (1997). “Wind variability in central stars of planetary nebulae. II”, Astronomy and Astrophysics Supplement Series,126, 385 – 391

    Google Scholar 

  1249. Pauldrach A. W. A., Hoffmann T. L., Lennon M. (2001). “Radiation-driven winds of hot luminous stars. XIII. A description of NLTE line blocking and blanketing towards realistic models for expanding atmospheres”, Astronomy and Astrophysics,375, 161 – 195

    Google Scholar 

  1250. Pedlosky J. (1987). Geophysical Fluid Dynamics, 2nd Edition, Springer-Verlag, New York

    Google Scholar 

  1251. Pekeris C. L. (1938). “Nonradial Oscillations of Stars”, Astrophysical Journal,88, 189 – 199

    Google Scholar 

  1252. Perdang J. (1986). “Asymptotics and quantum chaos in stellar oscillations”, In Seismology of the Sun and the distant Stars, 141 – 171, Ed. D. O. Gough, Reidel, Dordrecht

    Google Scholar 

  1253. Pérez Hernández F., Christensen-Dalsgaard J., 1994a, “The phase function for stellar acoustic oscillations. II. Effects of filtering”, Monthly Notices of the Royal Astronomical Society,267, 111 – 124

    Google Scholar 

  1254. Pérez Hernández F., Christensen-Dalsgaard J., 1994b, “The phase function for stellar acoustic oscillations – III. The solar case”, Monthly Notices of the Royal Astronomical Society,269, 475 – 492

    Google Scholar 

  1255. Pérez Hernández F., Christensen-Dalsgaard J. (1998). “The phase function for stellar acoustic oscillations - IV. Solar-like stars”, Monthly Notices of the Royal Astronomical Society, 295, 344 – 352

    Google Scholar 

  1256. Perlmutter S., Turner M. S., White M. (1999). “Constraining dark energy with Type Ia supernovae and large-scale structure”, Physical Review Letters,83, 670 – 673

    Google Scholar 

  1257. Perryman M. A. C., ESA (1997). The HIPPARCOS and TYCHO catalogues. Astrometric and photometric star catalogues derived from the ESA HIPPARCOS Space Astrometry Mission, ESA Special Publication, 1200

    Google Scholar 

  1258. Pesnell W. D. (1987). “A new driving mechanism for stellar pulsations”, Astrophysical Journal,314, 598 – 604

    Google Scholar 

  1259. Petersen J. O. (1973). “Masses of double mode Cepheid variables determined by analysis of period ratios”, Astronomy and Astrophysics,27, 89 – 93

    Google Scholar 

  1260. Phorah M. W. (2008). The effects of radiation and convection on stellar oscillations, PhD Dissertation, University of Cape Town, South Africa

    Google Scholar 

  1261. Pigulski A. (2005). “Pulsating Stars in the ASAS-3 Database. I. beta Cephei Stars”, Acta Astronomica,55, 219 – 236

    Google Scholar 

  1262. Pigulski A. (2006). “Intrinsic Variability in Multiple Systems and Clusters: an Overview”, In Astrophysics of Variable Stars, Eds C. Sterken, C. Aerts, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 349, 137 – 152

    Google Scholar 

  1263. Pigulski A., Kołaczkowski Z. (2002). “Early-type variables in the Magellanic Clouds. I. beta Cephei stars in the LMC bar”, Astronomy and Astrophysics,388, 88 – 99

    Google Scholar 

  1264. Pigulski A., Kolaczkowski Z., Kopacki G. (2003). “Reanalysis of the OGLE-I Observations with the Image Subtraction Method. I.Galactic Bar Fields MM1-A, MM1-B, MM7-A, and MM7-B”, Acta Astronomica,53, 27 – 50

    Google Scholar 

  1265. Pigulski A., Kołaczkowski Z., Ramza T., Narwid A. (2006). “High-amplitude delta Scuti stars in the Galactic Bulge from the OGLE-II and MACHO data ”, Memorie della Societa Astronomica Italiana,77, 223 – 226

    Google Scholar 

  1266. Pijpers F. P. (1997). “Solar rotation inversions and the relationship between a-coefficients and mode splittings”, Astronomy and Astrophysics,326, 1235 – 1240

    Google Scholar 

  1267. Pijpers F. P. (1998). “Helioseismic determination of the solar gravitational quadrupole moment”, Monthly Notices of the Royal Astronomical Society,297, L76 – L80

    Google Scholar 

  1268. Pijpers F. P. (2003). “Selection criteria for targets of asteroseismic campaigns”, Astronomy and Astrophysics, 400, 241 – 248

    Google Scholar 

  1269. Pijpers F. P., Habing H. J. (1989). “Driving the stellar wind of AGB stars by acoustic waves; exploration of a simple model”, Astronomy and Astrophysics,215, 334 – 346

    Google Scholar 

  1270. Pijpers F. P., Thompson M. J. (1992). “Faster formulations of the optimally localized averages method for helioseismic inversion”, Astronomy and Astrophysics,262, L33 – L36

    Google Scholar 

  1271. Pijpers F. P., Thompson M. J. (1994). “The SOLA method for helioseismic inversion”, Astronomy and Astrophysics,281, 231 – 240

    Google Scholar 

  1272. Pijpers F. P., Thompson M. J. (1996). “A modified IR1 ⊗ IR1 method for helioseismic inversions”, Monthly Notices of the Royal Astronomical Society,279, 498 – 510

    Google Scholar 

  1273. Piro A. L., Bildsten L. (2006). “The Energy Dependence of Neutron Star Surface Modes and X-Ray Burst Oscillations”, Astrophysical Journal,638, 968 – 937

    Google Scholar 

  1274. Poelarends A. J. T., Herwig F., Langer N., Heger A. (2008). “The supernova channel of super-AGB stars”, Astrophysical Journal,675, 614 – 625

    Google Scholar 

  1275. Pojmański G. (1997). “The All Sky Automated Survey”, Acta Astronomica,47, 467 – 481

    Google Scholar 

  1276. Pojmański G., Maciejewski G. (2004). “The All Sky Automated Survey. Catalog of Variable Stars. III. 12h–18h Quarter of the Southern Hemisphere”, Acta Astronomica,54, 153 – 179

    Google Scholar 

  1277. Pojmański G., Maciejewski G. (2005). “The All Sky Automated Survey. Catalog of Variable Stars. IV. 18h–24h Quarter of the Southern Hemisphere”, Acta Astronomica,55, 97 – 122

    Google Scholar 

  1278. Pollard K. R., Lloyd Evans T. (1999). “RV Tauri stars and Type II Cepheids in the LMC”, In Asymptotic Giant Branch Stars, Eds T. Le Bertre, A. Lebre, C. Waelkens, Astronomical Society of the Pacific Conference Series, San Francisco, 191, 459

    Google Scholar 

  1279. Pollard K. R., Cottrell P. L., Kilmartin P. M., Gilmore A. C. (1996). “RV Tauri stars. I. A long-term photometric survey”, Monthly Notices of the Royal Astronomical Society,279, 949 – 977

    Google Scholar 

  1280. Pollard K. R., Cottrell P. L., Lawson W. A., Albrow M. D., Tobin W. (1997). “RV Tauri stars - II. A spectroscopic study”, Monthly Notices of the Royal Astronomical Society,286, 1 – 22

    Google Scholar 

  1281. Pollard K. R., Alcock C., Allsman R. A., Alves D., Axelrod T. S., Becker A. C., Bennett D. P., Cook K. H., Freeman K. C., Griest K., Lehner M. J., Marshall S. L., Peterson B. A., Pratt M. R., Quinn P. J., Sutherland W., Tomaney A., Welch D. L., The MACHO Collaboration (2000). “RV Tauri Stars and Type II Cepheids in the Magellanic Clouds – Results from the MACHO Database”, In IAU Colloq. 176: The Impact of Large-Scale Surveys on Pulsating Star Research, Eds L. Szabados, D. W. Kurtz, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 203, 89 – 95

    Google Scholar 

  1282. Popielski B. L., Dziembowski W. A. (2005). “Seismic diagnostics of mixing beyond the convective core in intermediate mass main-sequence stars”, Acta Astronomica,55, 177 – 193

    Google Scholar 

  1283. Popielski B. L., Dziembowski W. A., Cassisi S. (2000). “Petersen Diagram for RRd Stars in the Magellanic Clouds”, Acta Astronomica,50, 491 – 507

    Google Scholar 

  1284. Poretti E. (2003). “Asteroseismology of HADS stars: V974 Oph, a radial pulsator flavoured by nonradial components”, Astronomy and Astrophysics,409, 1031 – 1035

    Google Scholar 

  1285. Poretti E., Pardo I. (1997). “The galactic double-mode Cepheids. II. Properties of the generalized phase differences”, Astronomy and Astrophysics,324, 133 – 136

    Google Scholar 

  1286. Poretti E., Koen C., Martinez P., Breuer F., Haupt H., de Alwis D. (1997). “Discovery and analysis of Gamma Doradus type pulsations in the F0IV star HR 2740=QW PUP”, Monthly Notices of the Royal Astronomical Society,292, 621 – 630

    Google Scholar 

  1287. Poretti E., Buzasi D., Laher R., Catanzarite J., Conrow T., 2002a, “Asteroseismology from space: The delta Scuti star θ2 Tauri monitored by the WIRE satellite”, Astronomy and Astrophysics,382, 157 – 163

    Google Scholar 

  1288. Poretti E., Koen C., Bossi M., Rodríguez E., Martín S., Krisciunas K., Akan M. C., Crowe R., Wilcox M., Ibanoglu C., Evren S., 2002b, “The multiperiodicity of the gamma Doradus stars HD 224945 and HD 224638 as detected from a multisite campaign”, Astronomy and Astrophysics,384, 513 – 520

    Google Scholar 

  1289. Porter J. M., Rivinius T. (2003). “Classical Be Stars”, Publications of the Astronomical Society of the Pacific,115, 1153 – 1170

    Google Scholar 

  1290. Porto de Mello G. F., Lyra W., Keller G. R. (2008). “The Alpha Centauri binary system. Atmospheric parameters and element abundances”, Astronomy and Astrophysics, 488, 653 – 666

    Google Scholar 

  1291. Pottasch E. M., Butcher H. R., van Hoesel F. H. J. (1992). “Solar-like oscillations on α Centauri A”, Astronomy and Astrophysics, 264, 138 – 146

    Google Scholar 

  1292. Pourbaix D., Neuforge-Verheecke C., Noels A. (1999). “Revised masses of α Centauri”, Astronomy and Astrophysics, 344, 172 – 176

    Google Scholar 

  1293. Pourbaix D., Nidever D., McCarthy C., Butler R. P., Tinney C. G., Marcy G. W., Jones H. R. A., Penny A. J., Carter B. D., Bouchy F., Pepe F., Hearnshaw J. B., Skuljan J., Ramm D., Kent D. (2002). “Constraining the difference in convective blueshift between the components of α Centauri with precise radial velocities”, Astronomy and Astrophysics, 386, 280 – 285

    Google Scholar 

  1294. Pourbaix D., Knapp G. R., Szkody P., Ivezić Ž., Kleinman S. J., Long D., Snedden S. A., Nitta A., Harvanek M., Krzesinski J., Brewington H. J., Barentine J. C., Neilsen E. H., Brinkmann J. (2005). “Candidate spectroscopic binaries in the Sloan Digital Sky Survey”, Astronomy and Astrophysics,444, 643 – 649

    Google Scholar 

  1295. Preston G. W. (1972). “The Unique Magnetic and Spectrum Variations of HD 24712”, Astrophysical Journal,175, 465 – 472

    Google Scholar 

  1296. Prialnik D. (2000). An Introduction to the Theory of Stellar Structure and Evolution, Cambridge University Press

    Google Scholar 

  1297. Press W. H., Teukolsky S. A., Vetterling W. T., Flannery B. P. (1992). Numerical Recipes in C: the art of scientific computing, Second Edition, Cambridge University Press

    Google Scholar 

  1298. Provencal J. L., Shipman H. L., The Wet Team (2008). “An Update on XCOV25: GD358”, Communications in Asteroseismology,154, 25 – 36

    Google Scholar 

  1299. Provost J., Berthomieu G. (1986). “Asymptotic properties of low degree solar gravity modes”, Astronomy and Astrophysics, 165, 218 – 226

    Google Scholar 

  1300. Przybilla N., Nieva M.-F., Butler K. (2008). “A cosmic abundance standard: chemical homogeneity of the solar neighborhood and the ISM dust-phase composition”, Astrophysical Journal,688, L103 – L106

    Google Scholar 

  1301. Puls J., Urbaneja M. A., Venero R., Repolust T., Springmann U., Jokuthy A., Mokiem M. R. (2005). “Atmospheric NLTE-models for the spectroscopic analysis of blue stars with winds. II. Line-blanketed models”, Astronomy and Astrophysics,435, 669 – 698

    Google Scholar 

  1302. Quirion P.-O., Fontaine G., Brassard P. (2004). “On the Driving Mechanism and the Coexistence of Variable and Nonvariable Stars in the Domain of the Pulsating PG 1159 Stars”, Astrophysical Journal,610, 436 – 442

    Google Scholar 

  1303. Quirion P.-O., Fontaine G., Brassard P. (2006). “Modeling the red edge of the GW Vir (PG 1159) instability strip : evolutionary calculations taking into account diffusion and mass loss ”, Memorie della Societa Astronomica Italiana,77, 53 – 54

    Google Scholar 

  1304. Quirion P.-O., Fontaine G., Brassard P. (2007). “Mapping the Instability Domains of GW Vir Stars in the Effective Temperature-Surface Gravity Diagram”, Astrophysical Journal Supplement Series,171, 219 – 248

    Google Scholar 

  1305. Rabello-Soares M. C., Christensen-Dalsgaard J., Rosenthal C. S., Thompson M. J., 1999a, “Effects of line asymmetries on the determination of solar internal structure”, Astronomy and Astrophysics,350, 672 – 679

    Google Scholar 

  1306. Rabello-Soares M. C., Basu S., Christensen-Dalsgaard J., 1999b, “On the choice of parameters in solar structure inversion”, Monthly Notices of the Royal Astronomical Society,309, 35 – 47

    Google Scholar 

  1307. Rabello-Soares M. C., Basu S., Christensen-Dalsgaard J., Di Mauro, M. P. (2000). “The potential of solar high-degree modes for structure inversion”, Solar Physics,193, 345 – 356

    Google Scholar 

  1308. Rabello-Soares M. C., Korzennik S. G., Schou J. (2008). “Analysis of MDI high-degree mode frequencies and their rotational splittings”, Solar Physics,251, 197 – 224

    Google Scholar 

  1309. Ramachandran B., Jeffery C. S., Townsend R. H. D. (2004). “Synthetic photometry for non-radial pulsations in subdwarf B stars”, Astronomy and Astrophysics,428, 209 – 214

    Google Scholar 

  1310. Randall S. K., Fontaine G., Brassard P., Bergeron P., 2005a, “The Potential of Multicolor Photometry for Pulsating Subdwarf B Stars”, Astrophysical Journal Supplement Series,161, 456 – 479

    Google Scholar 

  1311. Randall S. K., Matthews J. M., Fontaine G., Rowe J., Kuschnig R., Green E. M., Brassard P., Chayer P., Guenther D. B., Moffat A. F. J., Rucinski S., Sasselov D., Walker G. A. H., Weiss W. W., 2005b, “Detection of Long-Period Variations in the Subdwarf B Star PG 0101+039 on the Basis of Photometry from the MOST Satellite”, Astrophysical Journal,633, 460 – 464

    Google Scholar 

  1312. Rast M. P., Bogdan T. J. (1998). “On the asymmetry of solar acoustic line profiles”, Astrophysical Journal,496, 527 – 537

    Google Scholar 

  1313. Rathore Y., Blandford R. D., Broderick A. E. (2005). “Resonant excitation of white dwarf oscillations in compact object binaries - I. The no back reaction approximation”, Monthly Notices of the Royal Astronomical Society,357, 834 – 846

    Google Scholar 

  1314. Rauw G., De Becker M., Van Winckel H., Aerts C., Eenens P., Lefever K., Vandenbussche B., Linder N., Nazé Y., Gosset E. (2008). “Spectroscopic and photometric variability of the O9.5 Vp star HD 93521”, Astronomy and Astrophysics,487, 659 – 670

    Google Scholar 

  1315. Reed M. D., Brondel B. J., Kawaler S. D. (2005). “Pulsating Stars in Close Binaries. I. Investigations of Eclipse Mapping and Oblique Pulsations”, Astrophysical Journal,634, 602 – 615

    Google Scholar 

  1316. Reed M. D., and the Whole Earth Telescope Xcov 21 and 23 Collaborations, 2006a, “The observational search for tidally tipped pulsation axes in subdwarf B stars ”, Memorie della Societa Astronomica Italiana,77, 417

    Google Scholar 

  1317. Reed M. D., and the Whole Earth Telescope XCov21 and 23 collaborations, 2006b, “Searching for Observational Evidence of Tidally Inclined Pulsations”, Baltic Astronomy, 15, 269 – 274

    Google Scholar 

  1318. Reegen P. (2007). SigSpec. I. Frequency- and phase-resolved significance in Fourier space, Astronomy and Astrophysics, 467, 1353 – 1371

    Google Scholar 

  1319. Reese D., Lignières F., Rieutord M. (2006). “Acoustic oscillations of rapidly rotating polytropic stars. II. Effects of the Coriolis and centrifugal accelerations”, Astronomy and Astrophysics,455, 621 – 637

    Google Scholar 

  1320. Reese D., Lignières F., Rieutord M. (2008). “Regular patterns in the acoustic spectrum of rapidly rotating stars”, Astronomy and Astrophysics,481, 449 – 452

    Google Scholar 

  1321. Reese D., MacGregor K. B., Jackson S., Skumanich A., Metcalfe T. S., 2009a, “Comparison of pulsation modes in rapidly rotating polytropic and SCF models”, In Proc. 38thLiège International Astrophysical Colloquium: Evolution and Pulsation of Massive Stars on the Main Sequence and Close to it, Communications in Asteroseismology, 157, 264

    Google Scholar 

  1322. Reese D., MacGregor K. B., Jackson S., Skumanich A., Metcalfe T. S., 2009b, “Pulsation modes in stellar models based on the Self-Consistent Field method”, Astronomy and Astrophysics, in press [arXiv:0903.4854v1 [astro-ph.SR]]

    Google Scholar 

  1323. Reid M. J., Goldston J. E. (2002). “How Mira variables change visual light by a thousandfold”, Astrophysical Journal,568, 931 – 938 (Erratum: Astrophysical Journal,572, 694)

    Google Scholar 

  1324. Reiter J., Rhodes E. J., Kosovichev A. G., Schou J. (2004). “The current status of analyzing high-degree modes”, In Proc. SOHO 14 - GONG 2004: “Helio- and Asteroseismology: Towards a golden future”; Yale, July 12 – 16 2004, Ed. D. Danesy, ESA SP-559, ESA Publication Division, Noordwijk, The Netherlands, 61 – 72

    Google Scholar 

  1325. Reitz J. R., Milford F. J., Christy R. W. 1979, Foundations of Electromagnetic Theory, 3rd edition, Addison-Wesley, Reading, Massachusetts

    Google Scholar 

  1326. Rempel M. (2004). “Overshoot at the base of the solar convection zone: a semianalytical approach”, Astrophysical Journal,607, 1046 – 1064

    Google Scholar 

  1327. Rempel M. (2007). “Origin of solar torsional oscillations”, Astrophysical Journal,655, 651 – 659

    Google Scholar 

  1328. Renson P. (1978). “A method for finding the periods of variable stars”, Astronomy and Astrophysics,63, 125 – 129

    Google Scholar 

  1329. Retter A., Bedding T. R., Buzasi D. L., Kjeldsen H., Kiss L. L. (2003). “Oscillations in Arcturus from WIRE Photometry”, Astrophysical Journal,591, L151 – L154 (Erratum: Astrophysical Journal,596, L125)

    Google Scholar 

  1330. Reyniers K., Smeyers P., 2003a, “Tidal perturbations of linear, isentropic oscillations in components of circular-orbit close binaries. I. Synchronously rotating components”, Astronomy and Astrophysics,404, 1051 – 1065

    Google Scholar 

  1331. Reyniers K., Smeyers P., 2003b, “Tidal perturbations of linear, isentropic oscillations in components of circular-orbit close binaries . II. Validity of the perturbation method applied to equilibrium tides”, Astronomy and Astrophysics,409, 677 – 688

    Google Scholar 

  1332. Rhodes E. J., Cacciani A., Tomczyk S., Ulrich R. K. (1986). “The 1984 solar oscillation program of the Mt. Wilson 60-foot tower”, In Seismology of the Sun and the distant stars, Ed. D. O. Gough, Reidel, Dordrecht, 309 – 332

    Google Scholar 

  1333. Rhodes E. J., Cacciani A., Woodard M., Tomczyk S., Korzennik S., Ulrich R. K. (1987). “Estimates of the solar internal angular velocity obtained with the Mt. Wilson 60-foot solar tower”, In The internal solar angular velocity, Eds B. R. Durney, S. Sofia, Reidel, Dordrecht, 75 – 82

    Google Scholar 

  1334. Rhodes E. J., Cacciani A., Korzennik S. G., Tomczyk S., Ulrich R. K., Woodard M. F. (1990). “Depth and latitude dependence of the solar internal angular velocity”, Astrophysical Journal,351, 687 – 700

    Google Scholar 

  1335. Rhodes E. J., Cacciani A., Korzennik S. G., Ulrich R. K. (1993). “Confirmation of solar cycle-dependent intermediate-degree p-mode frequency shifts”, Astrophysical Journal,406, 714 – 722

    Google Scholar 

  1336. Rhodes E. J., Kosovichev A. G., Schou J., Scherrer P. H., Reiter J. (1997). “Measurements of frequencies of solar oscillations from the MDI medium-l program”, Solar Physics,175, 287 – 310

    Google Scholar 

  1337. Rhodes Jr E. J., Reiter J., Kosovichev A. G., Schou, J., Scherrer P. H. (1998). “Initial SOI/MDI high-degree frequencies and frequency splittings”, In Structure and dynamics of the interior of the Sun and Sun-like stars; Proc. SOHO 6/GONG 98 Workshop, Eds S. G. Korzennik, A. Wilson, ESA SP-418, ESA Publications Division, Noordwijk, The Netherlands, 73 – 82

    Google Scholar 

  1338. Riazi N., Abedi A. (2006). “Modelling eclipsing binaries with pulsating components: Phase dependence of observed pulsation amplitudes”, New Astronomy,11, 514 – 519

    Google Scholar 

  1339. Ribas I., Jordi C., Giménez Á. (2000). “The mass dependence of the overshooting parameter determined from eclipsing binary data”, Monthly Notices of the Royal Astronomical Society,318, L55 – L59

    Google Scholar 

  1340. Richard O., Dziembowski W. A., Sienkiewicz R., Goode P. R. (1998). “On the accuracy of helioseismic determination of solar helium abundance”, Astronomy and Astrophysics,338, 756 – 760

    Google Scholar 

  1341. Richard O., Michaud G., Richer J. (2001). “Iron convection zones in B, A and F stars”, Astrophysical Journal,558, 377 – 391

    Google Scholar 

  1342. Richichi, A., Percheron, I., Khristoforova, M. (2005). “CHARM2: An updated catalog of high angular resolution measurements”, Astronomy and Astrophysics, 431, 773 – 777

    Google Scholar 

  1343. Ripepi V., Marconi M., Palla F., Bernabei S., Ruoppo A., Cusano F., Alcalá J. M., 2006a, “Recent results on Pre-main sequence delta Scuti stars. ”, Memorie della Societa Astronomica Italiana,77, 317 – 321

    Google Scholar 

  1344. Ripepi V., Bernabei S., Marconi M., Palla F., Arellano Ferro A., Bonanno A., Ferrara P., Frasca A., Jiang X. J., Kim S.-L., Marinoni S., Mignemi G., Monteiro M. J. P. F. G., Oswalt T. D., Reegen P., Janulis R., Rodriguez E., Rolland A., Ruoppo A., Terranegra L., Zwintz K., 2006b, “A multisite photometric campaign on the pre-main-sequence δ Scuti pulsator IP Persei”, Astronomy and Astrophysics,449, 335 – 343

    Google Scholar 

  1345. Ritzwoller M. H., Lavely E. M. (1991). “A unified approach to the helioseismic forward and inverse problems of differential rotation”, Astrophysical Journal,369, 557 – 566

    Google Scholar 

  1346. Rivinius T., Baade D., Štefl S. (2003). “Non-radially pulsating Be stars”, Astronomy and Astrophysics,411, 229 – 247

    Google Scholar 

  1347. Robe H. (1968). “Les oscillations non radiales des polytropes”, Annales d’Astrophysique, 31, 475 – 482

    Google Scholar 

  1348. Roberts D. H., Lehar J., Dreher J. W. (1987). “Time Series Analysis with Clean - Part One - Derivation of a Spectrum”, Astronomical Journal,93, 968 – 989

    Google Scholar 

  1349. Robinson E. L., Kepler S. O., Nather R. E. (1982). “Multicolor variations of the ZZ Ceti stars”, Astrophysical Journal,259, 219 – 231

    Google Scholar 

  1350. Rodríguez E., Breger M. (2001). “Delta Scuti and related stars: Analysis of the R00 Catalogue”, Astronomy and Astrophysics,366, 178 – 196

    Google Scholar 

  1351. Rodríguez E., López-González M. J. (2000). “SX Phe stars in globular clusters”, Astronomy and Astrophysics,359, 597 – 600

    Google Scholar 

  1352. Rodríguez E., López-González M. J., López de Coca P. (2000). “A revised catalogue of delta Sct stars”, Astronomy and Astrophysics Supplement Series,144, 469 – 474

    Google Scholar 

  1353. Rodríguez E., Costa V., Handler G., García J. M. (2003). “Simultaneous uvby photometry of the new delta Sct-type variable HD 205”, Astronomy and Astrophysics,399, 253 – 262

    Google Scholar 

  1354. Rodríguez E., García J. M., Gamarova A. Y., Costa V., Daszyńska-Daszkiewicz J., López-González M. J., Mkrtichian D. E., Rolland A., 2004a, “δ Sct-type pulsations in eclipsing binary systems: AB Cas”, Monthly Notices of the Royal Astronomical Society,353, 310 – 318

    Google Scholar 

  1355. Rodríguez E., García J. M., Mkrtichian D. E., Costa V., Kim S.-L., López-González M. J., Hintz E., Kusakin A. V., Gamarova A. Y., Lee J. W., Youn J.-H., Janiashvili E. B., Garrido R., Moya A., Kang Y. W., 2004b, “δ Sct-type pulsations in eclipsing binary systems: RZ Cas”, Monthly Notices of the Royal Astronomical Society,347, 1317 – 1326

    Google Scholar 

  1356. Rogers F. J., Iglesias C. A. (1992). “Radiative atomic Rosseland mean opacity tables”, Astrophysical Journal Supplement Series,79, 507 – 568

    Google Scholar 

  1357. Rogers F. J., Nayfonov A. (2002). “Updated and expanded OPAL equation-of-state tables: implications for helioseismology”, Astrophysical Journal,576, 1064 – 1074

    Google Scholar 

  1358. Rogers F. J., Swenson F. J., Iglesias C. A. (1996). “OPAL Equation-of-State Tables for Astrophysical Applications”, Astrophysical Journal,456, 902 – 908

    Google Scholar 

  1359. Rogers T. M., MacGregor K. B., Glatzmaier G. A. (2008). “Non-linear dynamics of gravity wave driven flows in the solar radiative interior”, Monthly Notices of the Royal Astronomical Society,387, 616 – 630

    Google Scholar 

  1360. Rosenthal C. S. (1998). “Peaks and throughs in helioseismology: the power spectrum of solar oscillations”, Astrophysical Journal,508, 864 – 875

    Google Scholar 

  1361. Rosenthal C. S., Christensen-Dalsgaard J. (1995). “The interfacial f mode in a spherical solar model”, Monthly Notices of the Royal Astronomical Society,276, 1003 – 1008

    Google Scholar 

  1362. Rosenthal C. S., Gough D. O. (1994). “The solar f-mode as an interfacial mode at the chromosphere-corona transition”, Astrophysical Journal,423, 488 – 495

    Google Scholar 

  1363. Rosenthal C. S., Christensen-Dalsgaard J., Nordlund Å., Stein R. F., Trampedach R. (1999). “Convective contributions to the frequencies of solar oscillations”, Astronomy and Astrophysics, 351, 689 – 700

    Google Scholar 

  1364. Roth M., Stix M. (1999). “Coupling of solar p modes: quasi-degenerate perturbation theory”, Astronomy and Astrophysics, 351, 1133 – 1138

    Google Scholar 

  1365. Roth M., Stix M. (2008). “Meridional circulation and global solar oscillations”, Solar Physics, 251, 77 – 89

    Google Scholar 

  1366. Roxburgh I. W. (1978). “Convection and stellar structure”, Astronomy and Astrophysics,65, 281 – 285

    Google Scholar 

  1367. Roxburgh I. W. (1989). “Integral constraints on convective cores”, Astronomy and Astrophysics,211, 361 – 364

    Google Scholar 

  1368. Roxburgh I. W. (2001). “Gravitational multipole moments of the Sun determined from helioseismic estimates of the internal structure and rotation”, Astronomy and Astrophysics,377, 688 – 690

    Google Scholar 

  1369. Roxburgh I. W. (2002). “The tools of asteroseismology”, In Proc. 1st Eddington Workshop: ‘Stellar structure and habitable planet finding’, ESA SP-485, Eds F. Favata, I. W. Roxburgh, D. Galadí-Enríquez, ESA Publications Division, Noordwijk, The Netherlands, 75 – 85

    Google Scholar 

  1370. Roxburgh I. W. (2004). “EDDINGTON and the internal constitution of the stars”, In Proc. 2nd Eddington workshop, “Stellar structure and habitable planet finding”, ESA SP-538, Eds F. Favata, S. Aigrain, ESA Publications Division, Noordwijk, The Netherlands, 23 – 36

    Google Scholar 

  1371. Roxburgh I. W. (2005). “The ratio of small to large separations of stellar p-modes”, Astronomy and Astrophysics, 434, 665 – 669

    Google Scholar 

  1372. Roxburgh I. W. (2006). “2-dimensional models of rapidly rotating stars. II. Hydrostatic and acoustic models with Ω = Ω(r, θ)”, Astronomy and Astrophysics,454, 883 – 888

    Google Scholar 

  1373. Roxburgh I. W. (2009). “Small separations and phase shift differences of  = 0, 1 p-modes”, Astronomy and Astrophysics, 493, 185 – 191

    Google Scholar 

  1374. Roxburgh I. W., Vorontsov S. V., 1994a, “Seismology of the solar envelope: the base of the convection zone as seen in the phase shift of acoustic waves”, Monthly Notices of the Royal Astronomical Society,268, 880 – 888

    Google Scholar 

  1375. Roxburgh I. W., Vorontsov S. V., 1994b, “The seismology of stellar cores: a simple theoretical description of the ‘small frequency separations”’, Monthly Notices of the Royal Astronomical Society, 267, 297 – 302

    Google Scholar 

  1376. Roxburgh I. W., Vorontsov S. V. (1995). “An asymptotic description of solar acoustic oscillations with an elementary excitation source”, Monthly Notices of the Royal Astronomical Society,272, 850 – 858

    Google Scholar 

  1377. Roxburgh I. W., Vorontsov S. V. (1996). “An asymptotic description of solar acoustic oscillations of low and intermediate degree”, Monthly Notices of the Royal Astronomical Society,278, 940 – 946

    Google Scholar 

  1378. Roxburgh I. W., Vorontsov S. V., 2000a, “Semiclassical approximation for low-degree stellar p modes – I. The classical eigenfrequency equation”, Monthly Notices of the Royal Astronomical Society,317, 141 – 150

    Google Scholar 

  1379. Roxburgh I. W., Vorontsov S. V., 2000b, “Semiclassical approximation for low-degree stellar p modes – II. Classical ray tracing”, Monthly Notices of the Royal Astronomical Society, 317, 151 – 157

    Google Scholar 

  1380. Roxburgh I. W., Vorontsov S. V. (2001). “Semiclassical approximation for low-degree stellar p modes – III. Acoustic resonances and diagnostic properties of the oscillation frequencies”, Monthly Notices of the Royal Astronomical Society, 322, 85 – 96

    Google Scholar 

  1381. Roxburgh I. W., Vorontsov S. V. (2003). “The ratio of small to large separations of acoustic oscillations as a diagnostic of the interior of solar-like stars”, Astronomy and Astrophysics, 411, 215 – 220

    Google Scholar 

  1382. Ruderman M. A. (1968). “Crystallization and Torsional Oscillations of Superdense Stars”, Nature,218, 1128 – 1130

    Google Scholar 

  1383. Rufener F. (1981). “Third catalogue of stars measured in the Geneva Observatory photometric system”, Astronomy and Astrophysics Supplement Series,45, 207 – 366

    Google Scholar 

  1384. Rufener F. (1986). “The evolution of atmospheric extinction at La Silla”, Astronomy and Astrophysics,165, 275 – 286

    Google Scholar 

  1385. Rutten R. G. M., Dhillon V. S., Horne K., Kuulkers E., van Paradijs J. (1993). “Spectrally resolved eclipse maps of the accretion disk in UX Ursae Majoris”, Nature,362, 518 – 520

    Google Scholar 

  1386. Ryabchikova T. A., Landstreet J. D., Gelbmann M. J., Bolgova G. T., Tsymbal V. V., Weiss W. W. (1997). “Abundance analysis of roAp stars. IV. HD 24712”, Astronomy and Astrophysics,327, 1137 – 1146

    Google Scholar 

  1387. Ryabchikova T., Piskunov N., Kochukhov O., Tsymbal V., Mittermayer P., Weiss W. W. (2002). “Abundance stratification and pulsation in the atmosphere of the roAp star boldmath gamma Equulei”, Astronomy and Astrophysics,384, 545 – 553

    Google Scholar 

  1388. Ryabchikova T., Sachkov M., Kochukhov O., Lyashko D., 2007a, “Pulsation tomography of rapidly oscillating Ap stars. Resolving the third dimension in peculiar pulsating stellar atmospheres”, Astronomy and Astrophysics,473, 907 – 922

    Google Scholar 

  1389. Ryabchikova T., Sachkov M., Weiss W. W., Kallinger T., Kochukhov O., Bagnulo S., Ilyin I., Landstreet J. D., Leone F., Lo Curto G., Lüftinger T., Lyashko D., Magazzù A., 2007b, “Pulsation in the atmosphere of the roAp star HD 24712. I. Spectroscopic observations and radial velocity measurements”, Astronomy and Astrophysics,462, 1103 – 1112

    Google Scholar 

  1390. Saar S. H., Osten R. A. (1997). “Rotation, turbulence and evidence for magnetic fields in southern dwarfs”, Monthly Notices of the Royal Astronomical Society, 284, 803 – 810

    Google Scholar 

  1391. Sachkov M., Kochukhov O., Ryabchikova T., Huber D., Leone F., Bagnulo S., Weiss W. W. (2008). “Pulsations in the atmosphere of the rapidly oscillating Ap star 10 Aquilae”, Monthly Notices of the Royal Astronomical Society,389, 903 – 918

    Google Scholar 

  1392. Saesen S., Briquet M., Aerts C. (2006). “A line-profile analysis of the large-amplitude beta Cephei star xi1 Canis Majoris”, Communications in Asteroseismology,147, 109 – 112

    Google Scholar 

  1393. Saio H. (1981). “Rotational and tidal perturbations of nonradial oscillations in a polytropic star”, Astrophysical Journal,244, 299 – 315

    Google Scholar 

  1394. Saio H. (1993). “Excitation of the pulsation in the helium star V 652 Her”, Monthly Notices of the Royal Astronomical Society,260, 465 – 467

    Google Scholar 

  1395. Saio H. (1995). “A linear analysis of the radial pulsations of H-deficient stars”, Monthly Notices of the Royal Astronomical Society,277, 1393 – 1398

    Google Scholar 

  1396. Saio H. (2005). “A non-adiabatic analysis for axisymmetric pulsations of magnetic stars”, Monthly Notices of the Royal Astronomical Society,360, 1022 – 1032

    Google Scholar 

  1397. Saio H., Gautschy A. (2004). “Axisymmetric p-mode pulsations of stars with dipole magnetic fields”, Monthly Notices of the Royal Astronomical Society,350, 485 – 505

    Google Scholar 

  1398. Saio H., Jeffery C. S. (1988). “Radial pulsation in luminous hot helium stars”, Astrophysical Journal,328, 714 – 725

    Google Scholar 

  1399. Saio H., Jeffery C. S. (2002). “Merged binary white dwarf evolution: rapidly accreting carbon-oxygen white dwarfs and the progeny of extreme helium stars”, Monthly Notices of the Royal Astronomical Society,333, 121 – 132

    Google Scholar 

  1400. Saio H., Kuschnig R., Gautschy A., Cameron C., Walker G. A. H., Matthews J. M., Guenther D. B., Moffat A. F. J., Rucinski S. M., Sasselov D., Weiss W. W. (2006). “MOST Detects g- and p-Modes in the B Supergiant HD 163899 (B2 Ib/II)”, Astrophysical Journal,650, 1111 – 1118

    Google Scholar 

  1401. Saio H., Cameron C., Kuschnig R., Walker G. A. H., Matthews J. M., Rowe J. F., Lee U., Huber D., Weiss W. W., Guenther D. B., Moffat A. F. J., Rucinski S. M., Sasselov D. (2007). “MOST Detects g-Modes in the Late-Type Be Star β Canis Minoris (B8 Ve)”, Astrophysical Journal,654, 544 – 550

    Google Scholar 

  1402. Salpeter E. E. (1954). “Electron screening and thermonuclear reactions”, Austrian Journal of Physics,7, 373 – 388

    Google Scholar 

  1403. Samadi R., Goupil M.-J., Houdek G. (2002). “Solar-like oscillations in δ Scuti stars”, Astronomy and Astrophysics,395, 563 – 571

    Google Scholar 

  1404. Samadi R., Goupil M.-J., Alecian E., Baudin F., Georgobiani D., Trampedach R., Stein R., Nordlund Å. (2005). “Excitation of Solar-like Oscillations: From PMS to MS Stellar Models”, Journal of Astrophysics and Astronomy,26, 171 – 184

    Google Scholar 

  1405. Samadi R., Georgobiani D., Trampedach R., Goupil M. J., Stein R. F., Nordlund Å. (2007). “Excitation of solar-like oscillations across the HR diagram”, Astronomy and Astrophysics, 463, 297 – 308

    Google Scholar 

  1406. Samuelsson L., Andersson N. (2007). “Neutron star asteroseismology. Axial crust oscillations in the Cowling approximation”, Monthly Notices of the Royal Astronomical Society,374, 256 – 268

    Google Scholar 

  1407. Sandquist E. L. (2005). “Blue Stragglers in Low-Luminosity Star Clusters”, Astrophysical Journal,635, L73 – L76

    Google Scholar 

  1408. Sarro L. M., Debosscher J., Lopez M., Aerts C. (2009). “Automated supervised classification of variable stars II. Application to the OGLE database”, Astronomy and Astrophysics,494, 739 – 768

    Google Scholar 

  1409. Savanov I. S., Malanushenko V. P., Ryabchikova T. A. (1999). “Radial- velocity variations in pulsating Ap stars: Pr iii and Nd iii lines in the spectrum of γ Equ”, Astronomy Letters,25, 802 – 808

    Google Scholar 

  1410. Savonije G. J. (2005). “Unstable quasi g-modes in rotating main-sequence stars”, Astronomy and Astrophysics,443, 557 – 570

    Google Scholar 

  1411. Savonije G. J., Papaloizou J. C. B. (1984). “On the tidal evolution of massive X-ray binaries - The spin-up and circularization rates for systems with evolved stars and the effects of resonances”, Monthly Notices of the Royal Astronomical Society,207, 685 – 704

    Google Scholar 

  1412. Savonije G. J., Witte M. G. (2002). “Tidal interaction of a rotating 1 M star with a binary companion”, Astronomy and Astrophysics,386, 211 – 221

    Google Scholar 

  1413. Savonije G. J., Papaloizou J. C. B., Lin D. N. C. (1994). “On Tidally Induced Shocks in Accretion Discs in Close Binary Systems”, Monthly Notices of the Royal Astronomical Society,268, 13 – 28

    Google Scholar 

  1414. Scargle J. D. (1982). “Studies in astronomical time series analysis. II - Statistical aspects of spectral analysis of unevenly spaced data”, Astrophysical Journal,263, 835 – 853

    Google Scholar 

  1415. Schaller G., Schaerer D., Meynet G., Maeder A. (1992). “New grids of stellar models from 0.8 to 120 solar masses at Z = 0.020 and Z = 0.001”, Astronomy and Astrophysics Supplement Series,96, 269 – 331

    Google Scholar 

  1416. Schatzman E. (1993). “Transport of angular momentum and diffusion by the action of internal waves”, Astronomy and Astrophysics,279, 431 – 446

    Google Scholar 

  1417. Schatzman E., Souffrin P. (1967). “Waves in the solar atmosphere”, Annual Review of Astronomy and Astrophysics, 5, 67 – 84

    Google Scholar 

  1418. Schechter P. L., Mateo M., Saha A. (1993). “DOPHOT, a CCD photometry program: Description and tests”, Publications of the Astronomical Society of the Pacific,105, 1342 – 1353

    Google Scholar 

  1419. Scherrer P. H., Wilcox J. M., Kotov V. A., Severny A. B., Tsap T. T. (1979). “Observations of solar oscillations with periods of 160 minutes”, Nature,277, 635 – 637

    Google Scholar 

  1420. Scherrer P. H., Wilcox J. M., Christensen-Dalsgaard J., Gough D. O. (1983). “Detection of solar five-minute oscillations of low degree”, Solar Physics, 82, 75 – 87

    Google Scholar 

  1421. Scherrer P. H., Bogart R. S., Bush R. I., Hoeksema J. T., Kosovichev A. G., Schou J., Rosenberg W., Springer L., Tarbell T. D., Title A., Wolfson C. J., Zayer I., and the MDI engineering team (1995). “The Solar Oscillation Investigation – Michelson Doppler Imager”, Solar Physics,162, 129 – 188

    Google Scholar 

  1422. Schiff L.I. (1949). Quantum mechanics, New York, McGraw-Hill

    Google Scholar 

  1423. Schmelz J. T., Nasraoui K., Roames J. K., Lippner L. A., Garst J. W. (2005). “Neon lights up a controversy: the solar Ne/O abundance”, Astrophysical Journal,634, L197 – L200

    Google Scholar 

  1424. Schnerr R. S., Henrichs H. F., Oudmaijer R. D., Telting J. H. (2006). “On the Hα emission from the β Cephei system”, Astronomy and Astrophysics,459, L21 – L24

    Google Scholar 

  1425. Scholz G., Lehmann H., Hildebrandt G., Panov K., Iliev L. (1998). “Spectroscopic and photometric investigations of MAIA candidate stars”, Astronomy and Astrophysics, 337, 447 – 459

    Google Scholar 

  1426. Schönberg M., Chandrasekhar S. (1942). “On the evolution of the main-sequence stars”, Astrophysical Journal,96, 161 – 172

    Google Scholar 

  1427. Schou J. (1991). “On the 2-dimensional rotational inversion problem”, In Challenges to theories of the structure of moderate-mass stars,Lecture Notes in Physics,388, 93 – 100, Eds D. O. Gough, J. Toomre, Springer, Heidelberg

    Google Scholar 

  1428. Schou J. (1992). On the analysis of helioseismic data, PhD Dissertation, Aarhus University, Denmark

    Google Scholar 

  1429. Schou J. (1998). “Observations of medium- and high-degree modes: methods and sand-traps”, In Structure and dynamics of the interior of the Sun and Sun-like stars; Proc. SOHO 6/GONG 98 Workshop, Eds S. G. Korzennik, A. Wilson, ESA SP-418, ESA Publications Division, Noordwijk, The Netherlands, 47 – 52

    Google Scholar 

  1430. Schou J. (1999). “Migration of zonal flows detected using Michelson Doppler Imager f-mode frequency splittings”, Astrophysical Journal,523, L181 – L184

    Google Scholar 

  1431. Schou J., Brown T. M. (1994). “On the rotation rate in the solar convection zone”, Astrophysical Journal,434, 378 – 383

    Google Scholar 

  1432. Schou J., Buzasi D. L. (2001). “Observations of p-modes in α Cen”, In Helio- and Asteroseismology at the Dawn of the Millennium: Proc. SOHO 10 / GONG 2000 Workshop, ESA SP-464, ESA Publications Division, Noordwijk, The Netherlands, 391 – 394

    Google Scholar 

  1433. Schou J., Christensen-Dalsgaard J., Thompson M. J. (1992). “The resolving power of current helioseismic inversions for the Sun’s internal rotation”, Astrophysical Journal,385, L59 – L62

    Google Scholar 

  1434. Schou J., Christensen-Dalsgaard J., Thompson M. J. (1994). “On comparing helioseismic two-dimensional inversion methods”, Astrophysical Journal,433, 389 – 416

    Google Scholar 

  1435. Schou J., Kosovichev A. G., Goode P. R., Dziembowski W. A. (1997). “Determination of the Sun’s seismic radius from the SOHO Michelson Doppler Imager”, Astrophysical Journal,489, L197 – L200

    Google Scholar 

  1436. Schou J., Antia H. M., Basu S., Bogart R. S., Bush R. I., Chitre S. M., Christensen-Dalsgaard J., Di Mauro M. P., Dziembowski W. A., Eff-Darwich A., Gough D. O., Haber D. A., Hoeksema J. T., Howe R., Korzennik S. G., Kosovichev A. G., Larsen R. M., Pijpers F. P., Scherrer P. H., Sekii T., Tarbell T. D., Title A. M., Thompson M. J., Toomre J. (1998). “Helioseismic studies of differential rotation in the solar envelope by the Solar Oscillations Investigation using the Michelson Doppler Imager”, Astrophysical Journal,505, 390 – 417

    Google Scholar 

  1437. Schou J., Howe R., Basu S., Christensen-Dalsgaard J., Corbard T., Hill F., Larsen R. M., Rabello-Soares M. C., Thompson M. J. (2002). “A comparison of solar p-mode parameters from the Michelson Doppler Imager and the Global Oscillation Network Group: splitting coefficients and rotation inversions”, Astrophysical Journal,567, 1234 – 1249

    Google Scholar 

  1438. Schröder K.-P., Cuntz M. (2005). “A new version of Reimer’s law of mass loss based on a physical approach”, Astrophysical Journal,630, L73 – L76

    Google Scholar 

  1439. Schrijver C. J., Zwaan C. (2000). Solar and stellar magnetic activity, Cambridge University Press, Cambridge

    Google Scholar 

  1440. Schrijvers C., Telting J. H., Aerts C., Ruymaekers E., Henrichs H. F. (1997). “Line-profile variations due to adiabatic non-radial pulsations in rotating stars. I. Observable characteristics of spheroidal modes”, Astronomy and Astrophysics Supplement Series,121, 343 – 368

    Google Scholar 

  1441. Schrijvers C., Telting J. H. (1999). “Line-profile variations due to adiabatic non-radial pulsations in rotating stars. IV. The effects of intrinsic profile variations on the IPS diagnostics”, Astronomy and Astrophysics,342, 453 – 463

    Google Scholar 

  1442. Schuster A. (1898). “On the investigation of hidden periodicities with application to a supposed 26 day period of meteorological phenomena”, Terrestrial Magnetism and Atmospheric Electricity,3, 13 – 41

    Google Scholar 

  1443. Schwarzenberg-Czerny A. (1991). “Accuracy of period determination”, Monthly Notices of the Royal Astronomical Society,253, 198 – 206

    Google Scholar 

  1444. Schwarzenberg-Czerny A. (1997). “The Correct Probability Distribution for the Phase Dispersion Minimization Periodogram”, Astrophysical Journal,489, 941 – 945

    Google Scholar 

  1445. Schwarzenberg-Czerny A. (1998). “The distribution of empirical periodograms: Lomb-Scargle and PDM spectra”, Monthly Notices of the Royal Astronomical Society,301, 831 – 840

    Google Scholar 

  1446. Schwarzenberg-Czerny A. (2003). “An astronomer’s guide to period searching”, In Interplay of Periodic, Cyclic and Stochastic Variability in Selected Areas of the H-R Diagram, Ed. C. Sterken, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 292, 383 – 390

    Google Scholar 

  1447. Schwarzschild M., Schwarzschild B., Adams W. S. (1948). “On the Pulsation in the Atmosphere of η Aquilae”, Astrophysical Journal,108, 207 – 233

    Google Scholar 

  1448. Scuflaire R. (1974). “The non radial oscillations of condensed polytropes”, Astronomy and Astrophysics, 36, 107 – 111

    Google Scholar 

  1449. Scuflaire R., Gabriel M., Noels, A., Boury A. (1975). “Oscillatory periods in the Sun and theoretical models with or without mixing”, Astronomy and Astrophysics,45, 15 – 18

    Google Scholar 

  1450. Scuflaire R., Théado S., Montalbán J., Miglio A., Bourge P.-O., Godart M., Thoul A., Noels A. (2007). “CLÉS, Code Liégeois d’Évolution Stellaire”, Astrophysics and Space Science,316, 83 – 91

    Google Scholar 

  1451. Seaton M. J. (1993). “Radiative opacities”, In Proc. IAU Colloquium 137: Inside the stars, Eds A. Baglin, W. W. Weiss, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 40, 222 – 235

    Google Scholar 

  1452. Seaton M. J. (1996). “Interpolations of Rosseland-mean opacities for variable X and Z”, Monthly Notices of the Royal Astronomical Society,279, 95 – 100

    Google Scholar 

  1453. Seaton M. J. (1999). “Diffusion of iron-group elements in the envelopes of HgMn stars”, Monthly Notices of the Royal Astronomical Society,307, 1008 – 1022

    Google Scholar 

  1454. Seaton M. J. (2005). “Opacity Project data on CD for mean opacities and radiative accelerations”, Monthly Notices of the Royal Astronomical Society,362, L1 – L3

    Google Scholar 

  1455. Seaton M. J., Zeippen C. J., Tully J. A., Pradhan A. K., Mendoza C., Hibbert A., Berrington K. A. (1992). Revista Mexicana de Astronomia y Astrofisica,23, 19 – 43

    Google Scholar 

  1456. Sekii T. (1991). “Two-dimensional inversion for solar internal rotation”, Publications of the Astronomical Society of Japan,43, 381 – 411

    Google Scholar 

  1457. Sekii T. (1993). “A new strategy for 2D inversion for solar rotation”, Monthly Notices of the Royal Astronomical Society,264, 1018 – 1024

    Google Scholar 

  1458. Sekii T., Shibahashi H. (1989). “An asymptotic inversion method of inferring the sound velocity in the Sun from the spectrum of p-mode oscillations”, Publications of the Astronomical Society of Japan,41, 311 – 331

    Google Scholar 

  1459. Setiawan J., Roth M., Weise P., Dölinger M. P. (2006). “Multi-periodic oscillations of HD 32887 and HD 81797’, Memorie della Societa Astronomica Italiana,77, 510 – 514

    Google Scholar 

  1460. Severny A. B., Kotov V. A., Tsap T. T. (1976). “Observations of solar pulsations”, Nature,259, 87 – 89

    Google Scholar 

  1461. Severny A. B., Kotov V. A., Tsap T. T. (1979). “Solar oscillations and the problem of the internal structure of the sun”, Astron. Zh.,56, 1137 – 1148 (English translation: Sov. Astron.,23, 641 – 647)

    Google Scholar 

  1462. Shatsky N., Tokovinin A. (2002). “The mass ratio distribution of B-type visual binaries in the Sco OB2 association”, Astronomy and Astrophysics,382, 92 – 103

    Google Scholar 

  1463. Shaviv N. J., Shaviv G. (2001). “The electrostatic screening of nuclear reactions in the Sun”, Astrophysical Journal,558, 925 – 942

    Google Scholar 

  1464. Shibahashi H. (1988). “Inverse problem: acoustical potential vs acoustic length”, Proc. IAU Symposium No 123, Advances in helio- and asteroseismology, Eds J. Christensen-Dalsgaard, S. Frandsen, Reidel, Dordrecht, 133 – 136

    Google Scholar 

  1465. Shibahashi H. (2005). “The DB gap and pulsations of white dwarfs”, European Astronomical Society Publications Series,17, 143 – 148

    Google Scholar 

  1466. Shibahashi H., Takata M. (1993). “Theory for the distorted dipole modes of the rapidly oscillating Ap stars: A refinement of the oblique pulsator model”, Publications of the Astronomical Society of Japan,45, 617 – 641

    Google Scholar 

  1467. Shibahashi H., Osaki Y., Unno W. (1975). “Nonradial g-mode oscillations and the stability of the Sun”, Publications of the Astronomical Society of Japan,27, 401 – 410

    Google Scholar 

  1468. Shobbrook R. R., Handler G., Lorenz D., Mogorosi D. (2006). “Photometric studies of three multiperiodic β Cephei stars: β CMa, 15 CMa and KZ Mus”, Monthly Notices of the Royal Astronomical Society,369, 171 – 181

    Google Scholar 

  1469. Sills A., Adams T., Davies M. B. (2005). “Blue stragglers as stellar collision products: the angular momentum question”, Monthly Notices of the Royal Astronomical Society,358, 716 – 725

    Google Scholar 

  1470. Silvers L. J., Proctor M. R. E. (2007). “The interaction of multiple convection zones in A-type stars”, Monthly Notices of the Royal Astronomical Society,380, 44 – 50

    Google Scholar 

  1471. Silvotti R., Schuh S., Janulis R., Solheim J.-E., Bernabei S., Østensen R., Oswalt T. D., Bruni I., Gualandi R., Bonanno A., Vauclair G., Reed M., Chen C.-W., Leibowitz E., Paparo M., Baran A., Charpinet S., Dolez N., Kawaler S., Kurtz D., Moskalik P., Riddle R., Zola S. (2007). “A giant planet orbiting the ‘extreme horizontal branch’ star V391 Pegasi”, Nature,449, 189 – 191

    Google Scholar 

  1472. Simon K. P., Sturm E. (1994). “Disentangling of composite spectra”, Astronomy and Astrophysics,281, 286 – 291

    Google Scholar 

  1473. Simon N. R. (1982). “A plea for reexamining heavy element opacities”, Astrophysical Journal,260, L87 – L90

    Google Scholar 

  1474. Simon N. R. (1987). “Cepheids: problems and possibilities”, In Stellar pulsation, Eds A. N. Cox, W. M. Sparks, G. Starrfield, Lecture Notes in Physics, Springer, Berlin, 274, 148 – 158

    Google Scholar 

  1475. Simon R. (1969). “Rotational perturbation of a radial oscillation in a gaseous star”, Astronomy and Astrophysics, 2, 390 – 397

    Google Scholar 

  1476. Skumanich A. (1972). “Time scales for Ca II emission decay, rotational braking, and lithium depletion”, Astrophysical Journal,171, 565 – 567

    Google Scholar 

  1477. Smalley B., Kupka F. (1997). “The role of convection on the UVBY colours of A, F, and G stars”, Astronomy and Astrophysics,328, 349 – 360

    Google Scholar 

  1478. Smeyers P. (1966). “Les Oscillations Linéaires et Adiabatiques de la Sphère Homogène”, Bulletin de l’Académie Royale de Belgique, Classe des sciences52, 1126 – 1142

    Google Scholar 

  1479. Smeyers P., Denis J. (1971). “Second Order Rotational Perturbation of Non-Radial Oscillations of a Star”, Astronomy and Astrophysics,14, 311 – 318

    Google Scholar 

  1480. Smeyers P., Martens L. (1983). “The equations that govern rotational and tidal perturbations of stellar oscillations”, Astronomy and Astrophysics, 125, 193 – 199

    Google Scholar 

  1481. Smeyers P., Moya A. (2007). “The asymptotic representation of higher-order g + -modes in stars with a convective core”, Astronomy and Astrophysics, 465, 509 – 524

    Google Scholar 

  1482. Smith B. J., Price S. D., Moffett A. J. (2006). “Phase Lags in the Optical-Infrared Light Curves of Asymptotic Giant Branch Stars”, Astronomical Journal,131, 612 – 620

    Google Scholar 

  1483. Smith H. A. (1995). RR Lyrae stars, Cambridge Astrophysics Series, Cambridge University Press, 27

    Google Scholar 

  1484. Smith M. A. (1983). “Pulsational mode-typing in line profile variables. V - Multimodes and ’moving shells’ in Nu Eridani and other Beta Cephei stars”, Astrophysical Journal,265, 338 – 353

    Google Scholar 

  1485. Smith M. A., 1985a, “The nonradial oscillations of Spica. I – Two commensurable modes”, Astrophysical Journal,297, 206 – 223

    Google Scholar 

  1486. Smith M. A., 1985b, “The Nonradial Oscillations of Spica. II – A Quasi-Toroidal Mode”, Astrophysical Journal,297, 224 – 232

    Google Scholar 

  1487. Smith M. A., 1985c, “Pulsational mode typing in line-profile variables. VI Nonradial modes in the remarkable B star Epsilon Persei”, Astrophysical Journal,288, 266 – 274

    Google Scholar 

  1488. Smith M. A., Fitch W. S., Africano J. L., Goodrich B. D., Halbedel W., Palmer L. H., Henry G. W. (1984). “Stable nonradial pulsations in 53 Persei from 1977 to 1983”, Astrophysical Journal,282, 226 – 235

    Google Scholar 

  1489. Smith M. (1986). “Pulsation mode typing in line-profile variables. VII - Commensurable modes and nonuniform period behavior in Delta Scorpii”, Astrophysical Journal,304, 728 – 738

    Google Scholar 

  1490. Smith P. H., McMillan R. S., Merline W. J. (1987). “Evidence for periodic radial velocity variations in Arcturus”, Astrophysical Journal,317, L79 – L84

    Google Scholar 

  1491. Smolec R. (2005). “Metallicity Dependence of the Blazhko Effect”, Acta Astronomica, 55, 59 – 84

    Google Scholar 

  1492. Smolec R., Moskalik P. (2008). “Convective hydrocodes for radial stellar pulsation. Physical and numerical formulation”, Acta Astronomica58, 193 – 232

    Google Scholar 

  1493. Sobouti Y. (1980). “Normal modes of rotating fluids”, Astronomy and Astrophysics, 89, 314 – 335

    Google Scholar 

  1494. Soderblom D. R., Jones B. F., Fischer D. (2001). “Rotational studies of late-type stars. VII. M34 (NGC 1039) and the evolution of angular momentum and activity in young solar-type stars”, Astrophysical Journal,563, 334 – 340

    Google Scholar 

  1495. Söderhjelm S. (1999). “Visual binary orbits and masses post Hipparcos”, Astronomy and Astrophysics, 341, 121 – 140

    Google Scholar 

  1496. Söderhjelm S. (2000). “Binary statistics from Hipparcos data - a progress report”, Astronomische Nachrichten,321, 165 – 170

    Google Scholar 

  1497. Solheim J.-E., Provencal J. L., Bradley P. A., Vauclair G., Barstow M. A., Kepler S. O., Fontaine G., Grauer A. D., Winget D. E., Marar T. M. K., Leibowitz E. M., Emanuelsen P.-I., Chevreton M., Dolez N., Kanaan A., Bergeron P., Claver C. F., Clemens J. C., Kleinman S. J., Hine B. P., Seetha S., Ashoka B. N., Mazeh T., Sansom A. E., Tweedy R. W., Meistas E. G., Bruvold A., Massacand C. M. (1998). “Whole Earth Telescope observations of AM Canum Venaticorum - discoseismology at last”, Astronomy and Astrophysics,332, 939 – 957

    Google Scholar 

  1498. Soriano M., Vauclair S. (2008). “Asteroseismology of solar-type stars: signatures of convective and/or helium cores”, Astronomy and Astrophysics, 488, 975 – 985

    Google Scholar 

  1499. Soszyński I. (2007). “Long Secondary Periods and Binarity in Red Giant Stars”, Astrophysical Journal,660, 1486 – 1491

    Google Scholar 

  1500. Soszyński I., Udalski A., Szymanski M., Kubiak M., Pietrzynski G., Wozniak P., Zebrun K., Szewczyk O., Wyrzykowski L. (2003). “The Optical Gravitational Lensing Experiment. Catalog of RR Lyr Stars in the Large Magellanic Cloud”, Acta Astronomica, 53, 93 – 116

    Google Scholar 

  1501. Soszyński I., Udalski A., Kubiak M., Szymanski M., Pietrzynski G., Zebrun K., Szewczyk O., Wyrzykowski L. (2004). “The Optical Gravitational Lensing Experiment. Small Amplitude Variable Red Giants in the Magellanic Clouds”, Acta Astronomica,54, 129 – 152

    Google Scholar 

  1502. Soszyński I., Dziembowski W. A., Udalski A., Kubiak M., Szymański M. K., Pietrzyński G., Wyrzykowski Ł., Szewczyk O., Ulaczyk K. (2007). “The Optical Gravitational Lensing Experiment. Period-Luminosity relations of variable red giant stars”, Acta Astronomica, 57, 201 – 225

    Google Scholar 

  1503. Soufi F., Goupil M. J., Dziembowski W. A. (1998). “Effects of moderate rotation on stellar pulsation. I. Third order perturbation formalism”, Astronomy and Astrophysics,334, 911 – 924

    Google Scholar 

  1504. Sousa S. G., Cunha M. S. (2008). “On mode conversion and wave reflection in magnetic Ap stars”, Monthly Notices of the Royal Astronomical Society,386, 531 – 542

    Google Scholar 

  1505. Spiegel E. A., Zahn J.-P. (1992). “The solar tachocline”, Astronomy and Astrophysics,265, 106 – 114

    Google Scholar 

  1506. Spruit H. C. (2002). “Dynamo action by differential rotation in a stably stratified stellar interior”, Astronomy and Astrophysics, 381, 923 – 932

    Google Scholar 

  1507. Spruit H. C. (2003). “Origin of the torsional oscillation pattern of solar rotation”, Solar Physics,213, 1 – 21

    Google Scholar 

  1508. Stamford P. A., Watson R. D. (1981). “Baade-Wesselink and related techniques for mode discrimination in nonradial stellar pulsations”, Astrophysics and Space Science,77, 131 – 158

    Google Scholar 

  1509. Stankov A., Handler G. (2005). “Catalog of Galactic β Cephei Stars”, Astrophysical Journal Supplement Series,158, 193 – 216

    Google Scholar 

  1510. Starrfield S., Cox A. N., Kidman R. B., Pesnell W. D. (1984). “Nonradial instability strips based on carbon and oxygen partial ionization in hot, evolved stars”, Astrophysical Journal,281, 800 – 810

    Google Scholar 

  1511. Stein R. F. (1968). “Waves in the solar atmosphere. I. The acoustic energy flux”, Astrophysical Journal, 154, 297 – 306

    Google Scholar 

  1512. Stein R. F., Leibacher J. (1974). “Waves in the solar atmosphere”, Annual Review of Astronomy and Astrophysics,12, 407 – 435

    Google Scholar 

  1513. Stein R. F., Nordlund Å. (1998). “Simulations of solar granulation. I. General properties”, Astrophysical Journal,499, 914 – 933

    Google Scholar 

  1514. Stein R. F., Nordlund Å. (2001). “Solar oscillations and convection: II. Excitation of radial oscillations”, Astrophysical Journal,546, 585 – 603

    Google Scholar 

  1515. Stein R., Georgobiani D., Trampedach R., Ludwig H.-G., Nordlund, Å. (2004). “Excitation of radial p-modes in the Sun and stars”, Solar Physics, 220, 229 – 242

    Google Scholar 

  1516. Stein R. F., Benson D., Georgobiani D., Nordlund Å., Schaffenberger W. (2007). “Surface convection”, In AIP Conf. Proc.: Unsolved Problems in Stellar Physics, Eds R. J. Stancliffe, J. Dewi, G. Houdek, R. G. Martin, C. A. Tout, American Institute of Physics, Melville, 111 – 115

    Google Scholar 

  1517. Stellingwerf R. F. (1978). “Period determination using phase dispersion minimization”, Astrophysical Journal,224, 953 – 960

    Google Scholar 

  1518. Stellingwerf R. F. (1982). “Convection in pulsating stars. I. Nonlinear hydrodynamics”, Astrophysical Journal,262, 330 – 338

    Google Scholar 

  1519. Stellingwerf R. F. (1984). “Convection in pulsating stars. III. The RR Lyrae instability strip”, Astrophysical Journal,277, 322 – 326

    Google Scholar 

  1520. Stello D., Kjeldsen H., Bedding T. R., De Ridder J., Aerts C., Carrier F., Frandsen S. (2004). “Simulating stochastically excited oscillations. The mode lifetime of ξ Hya”, Solar Physics, 220, 207 – 228

    Google Scholar 

  1521. Stello D., Kjeldsen H., Bedding T. R., Buzasi D. (2006). “Oscillation mode lifetimes in ξ Hydrae: will strong mode damping limit asteroseismology of red giant stars?”, Astronomy and Astrophysics,448, 709 – 715

    Google Scholar 

  1522. Sterken C. (1977). “Light variations of extreme galactic B- and A supergiants”, Astronomy and Astrophysics,57, 361 – 371

    Google Scholar 

  1523. Sterken C. (1983). “Longterm Photometry of Variables at La-Silla”, The Messenger,33, 10

    Google Scholar 

  1524. Sterken C. (1995). Catalogue of stars measured in the Long-term Photometry of Variables Project (1992-1994) : 4 : 1995, ESO Scientific Report, Garching: European Southern Observatory

    Google Scholar 

  1525. Stetson P. B. (1987). “DAOPHOT - A computer program for crowded-field stellar photometry”, Publications of the Astronomical Society of the Pacific,99, 191 – 222

    Google Scholar 

  1526. Stix M. (2002). The Sun. An introduction, 2nd edition, Springer, Berlin

    Google Scholar 

  1527. Stoughton C., Lupton R. H., Bernardi M., Blanton M. R., Burles S., Castander F. J., Connolly A. J., Eisenstein D. J., Frieman J. A., Hennessy G. S., Hindsley R. B., Ivezić Ž., Kent S., Kunszt P. Z., Lee B. C., Meiksin A., Munn J. A., Newberg H. J., Nichol R. C., Nicinski T., Pier J. R., Richards G. T., Richmond M. W., Schlegel D. J., Smith J. A., Strauss M. A., SubbaRao M., Szalay A. S., Thakar A. R., Tucker D. L., Vanden Berk D. E., Yanny B., Adelman J. K., Anderson J. E., Jr., Anderson S. F., Annis J., Bahcall N. A., Bakken J. A., Bartelmann M., Bastian S., Bauer A., Berman E., Böhringer H., Boroski W. N., Bracker S., Briegel C., Briggs J. W., Brinkmann J., Brunner R., Carey L., Carr M. A., Chen B., Christian D., Colestock P. L., Crocker J. H., Csabai I., Czarapata P. C., Dalcanton J., Davidsen A. F., Davis J. E., Dehnen W., Dodelson S., Doi M., Dombeck T., Donahue M., Ellman N., Elms B. R., Evans M. L., Eyer L., Fan X., Federwitz G. R., Friedman S., Fukugita M., Gal R., Gillespie B., Glazebrook K., Gray J., Grebel E. K., Greenawalt B., Greene G., Gunn J. E., de Haas E., Haiman Z., Haldeman M., Hall P. B., Hamabe M., Hansen B., Harris F. H., Harris H., Harvanek M., Hawley S. L., Hayes J. J. E., Heckman T. M., Helmi A., Henden A., Hogan C. J., Hogg D. W., Holmgren D. J., Holtzman J., Huang C.-H., Hull C., Ichikawa S.-I., Ichikawa T., Johnston D. E., Kauffmann G., Kim R. S. J., Kimball T., Kinney E., Klaene M., Kleinman S. J., Klypin A., Knapp G. R., Korienek J., Krolik J., Kron R. G., Krzesiński J., Lamb D. Q., Leger R. F., Limmongkol S., Lindenmeyer C., Long D. C., Loomis C., Loveday J., MacKinnon B., Mannery E. J., Mantsch P. M., Margon B., McGehee P., McKay T. A., McLean B., Menou K., Merelli A., Mo H. J., Monet D. G., Nakamura O., Narayanan V. K., Nash T., Neilsen E. H., Jr., Newman P. R., Nitta A., Odenkirchen M., Okada N., Okamura S., Ostriker J. P., Owen R., Pauls A. G., Peoples J., Peterson R. S., Petravick D., Pope A., Pordes R., Postman M., Prosapio A., Quinn T. R., Rechenmacher R., Rivetta C. H., Rix H.-W., Rockosi C. M., Rosner R., Ruthmansdorfer K., Sandford D., Schneider D. P., Scranton R., Sekiguchi M., Sergey G., Sheth R., Shimasaku K., Smee S., Snedden S. A., Stebbins A., Stubbs C., Szapudi I., Szkody P., Szokoly G. P., Tabachnik S., Tsvetanov Z., Uomoto A., Vogeley M. S., Voges W., Waddell P., Walterbos R., Wang S.-i., Watanabe M., Weinberg D. H., White R. L., White S. D. M., Wilhite B., Wolfe D., Yasuda N., York D. G., Zehavi I., Zheng W. (2002). “Sloan Digital Sky Survey: Early Data Release”, Astronomical Journal,123, 485 – 548 (Erratum: Astronomical Journal,123, 3487)

    Google Scholar 

  1528. Strahkov V. N., Vorontsov S. V. (2000). “Adaptive regularization technique in linear inverse problems”, In Helio- and Asteroseismology at the Dawn of the Millennium: Proc. SOHO 10 / GONG 2000 Workshop ESA SP-464, ESA Publications Division, Noordwijk, The Netherlands, 539 – 542

    Google Scholar 

  1529. Straka, C. W., Demarque, P., Guenther, D. B., Li, L., Robinson, F. J. (2006). “Space- and ground-based pulsation data of η Bootis explained with stellar models including turbulence”, Astrophysical Journal, 636, 1078 – 1086

    Google Scholar 

  1530. Straka C. W., Demarque P., Robinson F. J. (2007). “Probing turbulence with seismic observations of α Centauri”, In Convection in Astrophysics. Proc. IAU Symposium No 239, Eds F. Kupka, I. W. Roxburgh, K. L. Chan, International Astronomical Union and Cambridge University Press, 388 – 390

    Google Scholar 

  1531. Straniero O., Domínguez I., Imbriani G., Piersanti L. (2003). “The chemical composition of white dwarfs as a test of convective efficiency during core helium burning”, Astrophysical Journal,583, 878 – 884

    Google Scholar 

  1532. Strohmayer T. E. (1992). “Light curves of rotating, oscillating neutron stars”, Astrophysical Journal,388, 138 – 147

    Google Scholar 

  1533. Strohmayer T. E., Cordes J. M., van Horn H. M. (1992). “Determining the coherence of micropulses”, Astrophysical Journal,389, 685 – 694

    Google Scholar 

  1534. Strohmayer T. E., Watts A. L. (2006). “The 2004 Hyperflare from SGR 1806-20: Further Evidence for Global Torsional Vibrations”, Astrophysical Journal,653, 593 – 601

    Google Scholar 

  1535. Struve O. (1955). “Some Unusual Short-period Variables”, Sky and Telescope,14, 461

    Google Scholar 

  1536. Struve O., McNamara D. H., Kung S. M., Kraft R. P., Williams A. D. (1952). “The Radial Velocity of nu Eridani”, Astrophysical Journal,116, 398 – 409

    Google Scholar 

  1537. Stumpff P. (1980). “Two Self-Consistent FORTRAN Subroutines for the Computation of the Earth’s Motion”, Astronomy and Astrophysics Supplement Series,41, 1 – 8

    Google Scholar 

  1538. Suárez, J.-C. (2002). Seismology of rotating stars. Application to delta Scuti stars, PhD Dissertation, Observatoire de Paris, France

    Google Scholar 

  1539. Suijs M. P. L., Langer N., Poelarends A.-J., Yoon S.-C., Heger A., Herwig F. (2008). “White dwarf spins from low-mass stellar evolution models”, Astronomy and Astrophysics,481, L87 – L90

    Google Scholar 

  1540. Sweet P. A. (1950). “The importance of rotation in stellar evolution”, Monthly Notices of the Royal Astronomical Society,110, 548 – 558

    Google Scholar 

  1541. Szabados L., Kurtz D. (Eds) (2000). The Impact of Large-Scale Surveys on Pulsating Star Research, Astronomical Society of the Pacific Conference Series, San Francisco, 203

    Google Scholar 

  1542. Szabó R., Kolláth Z., Buchler J. R. (2004). “Automated nonlinear stellar pulsation calculations: Applications to RR Lyrae stars. The slope of the fundamental blue edge and the first RRd model survey”, Astronomy and Astrophysics,425, 627 – 639

    Google Scholar 

  1543. Szkody P., Henden A., Fraser O., Silvestri N., Bochanski J., Wolfe M. A., Agüeros M., Warner B., Woudt P., Tramposch J., Homer L., Schmidt G., Knapp G. R., Anderson S. F., Covey K., Harris H., Hawley S., Schneider D. P., Voges W., Brinkmann J. (2004). “Cataclysmic Variables from the Sloan Digital Sky Survey. III. The Third Year”, Astronomical Journal,128, 1882 – 1893

    Google Scholar 

  1544. Taff L. G., Van Horn H. (1974). “Radial pulsations of finite isothermal gas spheres”, Monthly Notices of the Royal Astronomical Society, 167, 427 – 432

    Google Scholar 

  1545. Takata M. (2005). “Momentum conservation and model classification of the dipolar oscillations in stars”, Publications of the Astronomical Society of Japan,57, 375 – 389

    Google Scholar 

  1546. Takata M., 2006a, “Analysis of adiabatic dipolar oscillations of stars”, Publications of the Astronomical Society of Japan,58, 893 – 908

    Google Scholar 

  1547. Takata M., 2006b, “Rigorous analysis of dipolar oscillations of stars”, In Proc. SOHO 18 / GONG 2006 / HELAS I Conf.: Beyond the spherical Sun, Ed. K. Fletcher, ESA SP-624, ESA Publications Division, Noordwijk, The Netherlands, 26

    Google Scholar 

  1548. Takata M. (2008). “Dipolar oscillations of stars in general relativity”, Publications of the Astronomical Society of Japan,60, 245 – 258

    Google Scholar 

  1549. Takata M., Shibahashi H. (1995). “Effects of the Quadrupole Component of Magnetic Fields on the Rapid Oscillations of Ap Stars”, Publications of the Astronomical Society of Japan,47, 219 – 231

    Google Scholar 

  1550. Takata M., Shibahashi H. (2003). “Hydrogen abundance in the tachocline layer of the Sun”, Publications of the Astronomical Society of Japan,55, 1015 – 1023

    Google Scholar 

  1551. Takeda Y., Sato B., Murata D. (2008). “Stellar Parameters and Elemental Abundances of Late-G Giants”, Publications of the Astronomical Society of Japan,60, 781 – 802

    Google Scholar 

  1552. Talon S., Charbonnel C. (2005). “Hydrodynamical stellar models including rotation, internal gravity waves, and atomic diffusion. I. Formalism and tests on Pop I dwarfs”, Astronomy and Astrophysics,440, 981 – 994

    Google Scholar 

  1553. Talon S., Charbonnel C. (2008). “Angular momentum transport by internal gravity waves. IV - Wave generation by surface convection zone, from the pre-main sequence to the early-AGB in intermediate mass stars”, Astronomy and Astrophysics,482, 597 – 605

    Google Scholar 

  1554. Talon S., Zahn J.-P., Maeder A., Meynet G. (1997). “Rotational mixing in early-type stars: the main-sequence evolution of a 9M star”, Astronomy and Astrophysics,322, 209 – 217

    Google Scholar 

  1555. Tarantola A. (1987). Inverse Problem Theory, Elsevier, Amsterdam

    Google Scholar 

  1556. Tassoul J.-L. (2000). Stellar Rotation, Cambridge University Press

    Google Scholar 

  1557. Tassoul M. (1980). “Asymptotic approximations for stellar nonradial pulsations”, Astrophysical Journal Supplement Series,43, 469 – 490

    Google Scholar 

  1558. Tassoul M. (1990). “Second-order asymptotic approximations for stellar nonradial acoustic modes”, Astrophysical Journal,358, 313 – 327

    Google Scholar 

  1559. Tassoul M., Tassoul J.-L. (1983). “Meridional circulation in rotating stars. V - Cooling white dwarfs”, Astrophysical Journal,267, 334 – 339

    Google Scholar 

  1560. Tassoul M., Fontaine G., Winget D. E. (1990). “Evolutionary models for pulsation studies of white dwarfs”, Astrophysical Journal Supplement Series,72, 335 – 386

    Google Scholar 

  1561. Taylor B. J., 2003a, “Statistical cataloging of archival data for luminosity class IV–V stars. II. The epoch 2001 “Fe∕H] catalog”, Astronomy and Astrophysics, 398, 731 – 738

    Google Scholar 

  1562. Taylor B. J., 2003b, “Statistical cataloging of archival data for luminosity class IV–V stars. I. The epoch 2001 temperature catalog”, Astronomy and Astrophysics, 398, 721 – 729

    Google Scholar 

  1563. Telting J. H., Schrijvers C. (1997). “Line-profile variations of non-radial adiabatic pulsations of rotating stars. II. The diagnostic value of amplitude and phase diagrams derived from time series of spectra”, Astronomy and Astrophysics,317, 723 – 741

    Google Scholar 

  1564. Telting J. H., Schrijvers C. (1998). “A new bright beta Cephei star: line-profile variability in ω1 Sco”, Astronomy and Astrophysics,339, 150 – 158

    Google Scholar 

  1565. Telting J. H., Aerts C., Mathias P. (1997). “A period analysis of the optical line variability of β Cephei: evidence for multi-mode pulsation and rotational modulation”, Astronomy and Astrophysics,322, 493 – 506

    Google Scholar 

  1566. Templeton M., Basu S., Demarque P. (2002). “High-Amplitude δ Scuti and SX Phoenicis Stars: The Effects of Chemical Composition on Pulsations and the Period-Luminosity Relation”, Astrophysical Journal,576, 963 – 975

    Google Scholar 

  1567. Thévenin F., Provost J., Morel P., Berthomieu G., Bouchy F., Carrier F. (2002). “Asteroseismology and calibration of α Cen binary system”, Astronomy and Astrophysics, 392, L9 – L12

    Google Scholar 

  1568. Thévenin F., Kervella P., Pichon B., Morel P., Di Folco E., Lebreton Y. (2005). “VLTI/VINCI diameter constraints on the evolutionary status of δ Eri, ξ Hya, η Boo”, Astronomy and Astrophysics, 436, 253 – 262

    Google Scholar 

  1569. Thompson M. J. (1988). “Evidence for a thin perturbative layer near the base of the solar convection zone”, Seismology of the Sun, Sun-like Stars, Eds V. Domingo, E. J. Rolfe, ESA SP-286, ESA Publications Division, Noordwijk, The Netherlands, 321 – 324

    Google Scholar 

  1570. Thompson M. J. (1990). “A new inversion of solar rotational splitting data”, Solar Physics,125, 1 – 12

    Google Scholar 

  1571. Thompson M. J. (1993). “Seismic investigation of the Sun’s internal structure and rotation”, In Proc. GONG 1992: Seismic investigation of the Sun and stars, Ed. T. M. Brown, Astronomical Society of the Pacific Conference Series, San Francisco, 42, 141 – 154

    Google Scholar 

  1572. Thompson M. J. (2001). “Temporal variations of the Sun’s internal structure and dynamics: a theoretical perspective”, In Helio- and Asteroseismology at the Dawn of the Millennium: Proc. SOHO 10 / GONG 2000 Workshop ESA SP-464, ESA Publications Division, Noordwijk, The Netherlands, 39 – 44

    Google Scholar 

  1573. Thompson M. J. (2006). An introduction to astrophysical fluid dynamics, Imperial College Press, London

    Google Scholar 

  1574. Thompson M. J., Christensen-Dalsgaard J., Miesch M. S., Toomre J. (2003). “The internal rotation of the Sun”, Annual Review of Astronomy and Astrophysics,41, 599 – 643

    Google Scholar 

  1575. Thoul A., Montalbán J. (2007). “Microscopic diffusion in stellar plasmas”, In Stellar Evolution and Seismic Tools for Asteroseismology: Diffusive Processes in Stars and Seismic Analysis, Eds C. W. Straka, Y. Lebreton, M. J. P. F. G. Monteiro, European Astronomical Society Publication Series, 26, EDP Sciences, 25 – 36

    Google Scholar 

  1576. Thoul A. A., Bahcall J. N., Loeb A. (1994). “Element diffusion in the solar interior”, Astrophysical Journal,421, 828 – 842

    Google Scholar 

  1577. Thoul A., Scuflaire R., Noels A., Vatovez B., Briquet M., Dupret M.-A., Montalbán J. (2003). “A new seismic analysis of Alpha Centauri”, Astronomy and Astrophysics, 402, 293 – 297

    Google Scholar 

  1578. Thoul A., Scuflaire R., Ausseloos M., Aerts C., Noels A. (2004). “Asteroseismology of the Beta Cephei star HD 129929. Effects of a change in the metal mixture”, Communications in Asteroseismology,144, 35 – 40

    Google Scholar 

  1579. Tobias S., Weiss N. (2007). “The solar dynamo and the tachocline”, In The solar tachocline, Eds D. W. Hughes, R. Rosner, N. O. Weiss, Cambridge University Press, 319 – 350

    Google Scholar 

  1580. Tomczyk S., Streander K., Card G., Elmore D., Hull H., Cacciani A. (1995). “An instrument to observe low-degree solar oscillations”, Solar Physics,159, 1 – 21

    Google Scholar 

  1581. Tomkin J., Pan X., McCarthy J. K. (1995). “Spectroscopic detection of the secondaries of the Hyades interferometric spectroscopic binary θ2 Tauri and of the interferometric spectroscopic binary alpha Andromedae”, Astronomical Journal,109, 780 – 790

    Google Scholar 

  1582. Toutain T., Appourchaux T. (1994). “Maximum likelihood estimators: An application to the estimation of the precision of helioseismic measurements”, Astronomy and Astrophysics,289, 649 – 658

    Google Scholar 

  1583. Toutain T., Fröhlich C. (1992). “Characteristics of solar p-modes: Results from the IPHIR experiment”, Astronomy and Astrophysics,257, 287 – 297

    Google Scholar 

  1584. Toutain T., Kosovichev A. G. (2000). “Optimal masks for low-degree solar acoustic modes”, Astrophysical Journal,534, L211 – L214

    Google Scholar 

  1585. Toutain T., Kosovichev A. G. (2005). “Study of the solar cycle dependence of low-degree p-modes with Michelson Doppler Imager and VIRGO”, Astrophysical Journal, 622, 1314 – 1319

    Google Scholar 

  1586. Townsend R. H. D. (1997). “Spectroscopic modelling of non-radial pulsation in rotating early-type stars”, Monthly Notices of the Royal Astronomical Society,284, 839 – 858

    Google Scholar 

  1587. Townsend R. H. D. (2002). “Photometric modelling of slowly pulsating B stars”, Monthly Notices of the Royal Astronomical Society,330, 855 – 875

    Google Scholar 

  1588. Townsend R. H. D., 2003a, “Asymptotic expressions for the angular dependence of low-frequency pulsation modes in rotating stars”, Monthly Notices of the Royal Astronomical Society,340, 1020 – 1030

    Google Scholar 

  1589. Townsend R. H. D., 2003b, “A semi-analytical formula for the light variations due to low-frequency g modes in rotating stars”, Monthly Notices of the Royal Astronomical Society,343, 125 – 136

    Google Scholar 

  1590. Townsend R. H. D., 2005a, “Influence of the Coriolis force on the instability of slowly pulsating B stars”, Monthly Notices of the Royal Astronomical Society,360, 465 – 476

    Google Scholar 

  1591. Townsend R. H. D., 2005b, “Kappa-mechanism excitation of retrograde mixed modes in rotating B-type stars”, Monthly Notices of the Royal Astronomical Society,364, 573 – 582

    Google Scholar 

  1592. Townsend R. H. D., MacDonald J. (2006). “Excitation of g modes in Wolf-Rayet stars by a deep opacity bump”, Monthly Notices of the Royal Astronomical Society,368, L57 – L61

    Google Scholar 

  1593. Townsend R. H. D., Owocki S. P. (2005). “A rigidly rotating magnetosphere model for circumstellar emission from magnetic OB stars”, Monthly Notices of the Royal Astronomical Society,357, 251 – 264

    Google Scholar 

  1594. Townsend R. H. D., Owocki S. P., Howarth I. D. (2004). “Be-star rotation: how close to critical?”, Monthly Notices of the Royal Astronomical Society,350, 189 – 195

    Google Scholar 

  1595. Townsley D. M., Arras P., Bildsten L. (2004). “Seismology of the Accreting White Dwarf in GW Librae”, Astrophysical Journal,608, L105 – L108

    Google Scholar 

  1596. Trampedach R. (2004). “3D-simulation of the outer convection-zone of an A-star”, In Proc. IAU Symposium 224: The A star puzzle, Eds J. Zverko, J. Zižňovský, S. J. Adelman, W. W. Weiss, Cambridge University Press, 155 – 160

    Google Scholar 

  1597. Trampedach R. (2007). “A new stellar atmosphere grid - in 3D”, In AIP Conf. Proc.: Unsolved Problems in Stellar Physics, Eds R. J. Stancliffe, J. Dewi, G. Houdek, R. G. Martin, C. A. Tout, American Institute of Physics, Melville, 141 – 148

    Google Scholar 

  1598. Trampedach R., Stein R. F., Christensen-Dalsgaard J., Nordlund Å. (1999). “Stellar evolution with a variable mixing-length parameter”, In Theory and Tests of Convection in Stellar Structure, Eds A. Giménez, E. F. Guinan, B. Montesinos, Astronomical Society of the Pacific Conference Series, San Francisco, 173, 233 – 236

    Google Scholar 

  1599. Trampedach R., Däppen, W., Baturin, V. A. (2006). “A synoptic comparison of the Mihalas-Hummer-Däppen and OPAL equations of state”, Astrophysical Journal,646, 560 – 578

    Google Scholar 

  1600. Tran Minh F., Léon L. (1995). “Numerical solution of stellar nonradial oscillations: the Galerkin and B-splines method.”, Physical Processes in Astrophysics, 219 – 221

    Google Scholar 

  1601. Tremblay P.-E., Fontaine G., Brassard P., Bergeron P., Randall S. K. (2006). “A Quantitative Analysis of the Available Multicolor Photometry for Rapidly Pulsating Hot B Subdwarfs”, Astrophysical Journal Supplement Series,165, 551 – 567

    Google Scholar 

  1602. Turck-Chièze S., Basu S., Brun A. S., Christensen-Dalsgaard J., Eff-Darwich A., Lopes I., Pérez Hernández F., Berthomieu G., Provost J., Ulrich R. K., Baudin F., Boumier P., Charra J., Gabriel A. H., Garcia R. A., Grec G., Renaud C., Robillot J. M., Roca Cortés T. (1997). “First view of the solar core from GOLF acoustic modes”, Solar Physics,175, 247 – 265

    Google Scholar 

  1603. Turck-Chièze S., García R. A., Couvidat S., Ulrich R. K., Bertello L., Varadi F., Kosovichev A. G., Gabriel A. H., Gerthomieu G., Brun A. S., Lopes I., Pallé P., Provost J., Robillot J. M., Roca Cortés T., 2004a, “Looking for gravity-mode multiplets with the GOLF experiment aboard SOHO”, Astrophysical Journal,604, 455 – 468 [Erratum: Astrophysical Journal,608, 610]

    Google Scholar 

  1604. Turck-Chièze S., Couvidat S., Piau L., Ferguson J., Lambert P., Ballot J., García R. A., Nghiem P., 2004b, “Surprising Sun: a new step towards a complete picture?” Phys. Rev. Lett.,93, 211102-(1–4)

    Google Scholar 

  1605. Turck-Chièze S., Mathur S., Ballot J., García R. A., Carton P.-H., Barrière J.-C., Daniel-Thomas P., Delbart A., Desforges D., Granelli R., Nunio F., Piret Y., Pallé P. L., Jiménez A. J., Jiménez-Reyes S. J., Simoniello R. (2008). “The GOLF-NG prototype and the solar European perspective for Cosmic Vision 2015-2025”, In Proc. HELAS II International Conference: Helioseismology, Asteroseismology and the MHD Connections, Göttingen, August 2007, Eds L. Gizon, M. Roth, Journal of Physics, Conference Series,118, 012044(1 – 8)

    Google Scholar 

  1606. Turcotte S., Richer J., Michaud G., 1998a, “Consistent evolution of F stars: diffusion, radiative accelerations, and abundance anomalies”, Astrophysical Journal,504, 559 – 572

    Google Scholar 

  1607. Turcotte S., Richer J., Michaud G., Iglesias C. A., Rogers F. J., 1998b, “Consistent solar evolution model including diffusion and radiative acceleration effects”, Astrophysical Journal,504, 539 – 558

    Google Scholar 

  1608. Turcotte S., Richer J., Michaud G., Christensen-Dalsgaard J. (2000). “The effect of diffusion on pulsations of stars on the upper main sequence. δ Scuti and metallic A stars”, Astronomy and Astrophysics,360, 603 – 616

    Google Scholar 

  1609. Tylenda R. (1996). “Wolf-Rayet central stars of planetary nebulae”, In Hydrogen Deficient Stars, Eds C. S. Jeffery, U. Heber, Astronomical Society of the Pacific Conference Series, 96, 101

    Google Scholar 

  1610. Udalski A., Soszyński I., Szymanski M., Kubiak M., Pietrzynski G., Wozniak P., Zebrun K. (1999). “The Optical Gravitational Lensing Experiment. Cepheids in the Magellanic Clouds. V. Catalog of Cepheids from the Small Magellanic Cloud”, Acta Astronomica,49, 437 – 520

    Google Scholar 

  1611. Ulrich R. K. (1970). “The five-minute oscillations on the solar surface”, Astrophysical Journal,162, 993 – 1001

    Google Scholar 

  1612. Ulrich R. K. (1986). “Determination of stellar ages from asteroseismology”, Astrophysical Journal, 306, L37 – L40

    Google Scholar 

  1613. Ulrich R. K., Boyden J. E., Webster L., Snodgrass H. B., Padilla S. P., Gilman P., Shieber T. (1988). “Solar rotation measurements at Mount Wilson. V. Reanalysis of 21 years of data”, Solar Physics,117, 291 – 328

    Google Scholar 

  1614. Unno W. (1967). “The stellar radial pulsation coupled with the convection”, Publications of the Astronomical Society of Japan,19, 140 – 153

    Google Scholar 

  1615. Unno W., Spiegel E. A. (1966). “The Eddington approximation in the radiative heat equation”, Publications of the Astronomical Society of Japan, 18, 85 – 95

    Google Scholar 

  1616. Unno W., Osaki Y., Ando H., Saio H., Shibahashi H. (1989). Nonradial oscillations of stars, 2nd edition, Tokyo: University of Tokyo Press

    Google Scholar 

  1617. Uytterhoeven K., Telting J. H., Aerts C., Willems B. (2004). “Interpretation of the variability of the β Cephei star λ Scorpii. II. The line-profile diagnostics”, Astronomy and Astrophysics,427, 593 – 605

    Google Scholar 

  1618. Uytterhoeven K., Briquet M., Aerts C., Telting J. H., Harmanec P., Lefever K., Cuypers J., 2005a, “Disentangling component spectra of κ Scorpii, a spectroscopic binary with a pulsating primary. II. Interpretation of the line-profile variability”, Astronomy and Astrophysics,432, 955 – 967

    Google Scholar 

  1619. Uytterhoeven K., Harmanec P., Telting J. H., Aerts C., 2005b, “The orbit of the close spectroscopic binary ε Lup and the intrinsic variability of its early B-type components”, Astronomy and Astrophysics, 440, 249 – 260

    Google Scholar 

  1620. Uytterhoeven K., Mathias P., Poretti E., Rainer M., Martín-Ruiz S., Rodríguez E., Amado P. J., Le Contel D., Jankov S., Niemczura E., Pollard K. R., Brunsden E., Paparó M., Costa V., Valtier J.-C., Garrido R., Suárez J. C., Kilmartin P. M., Chapellier E., Rodríguez-López C., Marin A. J., Aceituno F. J., Casanova V., Rolland A., Olivares I. (2008). “The γ Doradus CoRoT target HD 49434. I. Results from the ground-based campaign”, Astronomy and Astrophysics,489, 1213 – 1224

    Google Scholar 

  1621. Vakili F., Mourard D., Stee P. (1994). “Optical Resolution of Be Star Envelopes”, In Pulsation, Rotation, and Mass Loss in Early-Type Stars, Eds L. A. Balona, H. F. Henrichs, J.-M. LeContel, Kluwer Academic Publishers, Dordrecht, 162, 435 – 447

    Google Scholar 

  1622. van Belle G. T., Ciardi D. R., Boden A. F. (2007). “Measurement of the surface gravity of η Bootis”, Astrophysical Journal, 657, 1058 – 1063

    Google Scholar 

  1623. Vandakurov Y. V. (1967). “On the Resonance Instability in a Radially Pulsating Star”, Astrophysical Journal,149, 435 – 439

    Google Scholar 

  1624. van den Ancker M. E., de Winter D., Tjin A Djie H. R. E. (1998). “HIPPARCOS photometry of Herbig Ae/Be stars”, Astronomy and Astrophysics,330, 145 – 154

    Google Scholar 

  1625. VandenBerg D. A., Bergbusch P. A., Dowler P. D. (2006). “The Victoria-Regina stellar models: evolutionary tracks and isochrones for a wide range in mass and metallicity that allow for empirically constrained amounts of convective core overshoot”, Astrophysical Journal Supplement Series,162, 375 – 387

    Google Scholar 

  1626. van der Hucht K. A. (2001). “The VIIth catalogue of galactic Wolf-Rayet stars”, New Astronomy Review,45, 135 – 232

    Google Scholar 

  1627. van Genderen A. M. (2001). “S Doradus variables in the Galaxy and the Magellanic Clouds”, Astronomy and Astrophysics,366, 508 – 531

    Google Scholar 

  1628. van Genderen A. M., Bovenschen H., Engelsman E. C., Goudfrooy P., van Haarlem M. P., Hartmann D., Latour H. J., Ng Y. K., Prein J. J., van Roermund F. H. P. M., Roogering H. J. A., Steeman F. W. M., Tijdhof W., 1989a, “Light variations of massive stars (Alpha Cygni variables). IX”, Astronomy and Astrophysics Supplement Series,79, 263 – 282

    Google Scholar 

  1629. van Genderen A. M., Steemers W. J. G., van der Hucht K. A. (1987). “A high precision photometric investigation of the micro-variations of Wolf-Rayet stars”, Astronomy and Astrophysics,185, 131 – 146

    Google Scholar 

  1630. van Genderen A. M., Breukers R. J. L. H., Houtekamer P., van Roermund F. H. P. M., Rottgering H. J. A., Steeman F. W. M., 1989b, “An investigation of the micro variations of highly luminous OBA-type stars (Alpha Cygni variables). VIII - A study of the periodicities in the radial velocity and light variations of the nitrogen-rich supergiant HD105056 (ON9.7Iae)”, Astronomy and Astrophysics,213, 161 – 166

    Google Scholar 

  1631. van Genderen A. M., Hadiyanto Nitihardjo G., 1989c, “Light variations of massive stars (Alpha Cygni variables). X - The F type supergiants G266 = HDE271182 = R92 and G322 = HDE269612 in the LMC”, Astronomy and Astrophysics Supplement Series, 79, 401 – 406

    Google Scholar 

  1632. van Hoof A. (1957). “A Request for Photometric Observations of θ Ophiuchi”, Publications of the Astronomical Society of the Pacific,69, 179 – 179

    Google Scholar 

  1633. van Hoof A. (1959). “The Multiple Periodicity of ν Eridani”, Publications of the Astronomical Society of the Pacific,71, 455 – 460

    Google Scholar 

  1634. van Hoof A., 1961a, “The Light Variation of Nu Eridani”, Zeitschrift fur Astrophysik, 53, 106 – 123

    Google Scholar 

  1635. van Hoof A., 1961b, “The Velocity Changes of Nu Eridani”, Zeitschrift fur Astrophysik,53, 124 – 129

    Google Scholar 

  1636. van Hoof A. (1962). “The Brightness Variation of Theta Ophiuchi”, Zeitschrift fur Astrophysik,54, 255 – 259

    Google Scholar 

  1637. van Hoof A., Blaauw A. (1958). “The Behavior of Theta Ophiuchi during Four Cycles in April, 1956”, Astrophysical Journal,128, 273 – 286

    Google Scholar 

  1638. van Hoof A., Bertiau F., Deurinck R. (1956). “The Radial-Velocity Variation of Theta Ophiuchi”, Astrophysical Journal,124, 168 – 172

    Google Scholar 

  1639. Van Hoolst T. (1995). “Resonances between two stellar oscillation modes with nearly equal frequencies”, Astronomy and Astrophysics,295, 371 – 392

    Google Scholar 

  1640. Van Hoolst T., Dziembowski W. A., Kawaler S. D. (1998). “Unstable non-radial modes in radial pulsators: theory and an example”, Monthly Notices of the Royal Astronomical Society,297, 536 – 544

    Google Scholar 

  1641. Vaníček P. (1971). “Further Development and Properties of the Spectral Analysis by Least-Squares”, Astrophysics and Space Science,12, 10 – 33

    Google Scholar 

  1642. van Leeuwen F., van Genderen A. M., Zegelaar I. (1998). “HIPPARCOS photometry of 24 variable massive stars (alpha Cygni variables)”, Astronomy and Astrophysics Supplement Series,128, 117 – 129

    Google Scholar 

  1643. Van Winckel H. (2003). “Post-AGB Stars”, Annual Review of Astronomy and Astrophysics,41, 391 – 427

    Google Scholar 

  1644. Van Winckel H., Waelkens C., Fernie J. D., Waters L. B. F. M. (1999). “The RV Tauri phenomenon and binarity”, Astronomy and Astrophysics,343, 202 – 212

    Google Scholar 

  1645. van Zyl L., Warner B., O’Donoghue D., Hellier C., Woudt P., Sullivan D., Pritchard J., Kemp J., Patterson J., Welsh W., Casares J., Shahbaz T., van der Hooft F., Vennes S. (2004). “The non-radially pulsating primary of the cataclysmic variable GW Librae”, Monthly Notices of the Royal Astronomical Society,350, 307 – 316

    Google Scholar 

  1646. Vauclair, G., Vauclair, S., Pamjatnikh, A. (1974). “Diffusion processes in the envelopes of main-sequence A stars: model variations due to helium depletion”, Astrononomy and Astrophysics,31, 63 – 70

    Google Scholar 

  1647. Veen P. M., van Genderen A. M., van der Hucht K. A., Allen W. H., Arentoft T., Sterken C., 2002a, “The enigmatic WR46: A binary or a pulsator in disguise. I. The photometry”, Astronomy and Astrophysics,385, 585 – 599

    Google Scholar 

  1648. Veen P. M., van Genderen A. M., Crowther P. A., van der Hucht K. A., 2002b, “The enigmatic WR46: A binary or a pulsator in disguise. II. The spectroscopy”, Astronomy and Astrophysics,385, 600 – 618

    Google Scholar 

  1649. Veen P. M., van Genderen A. M., van der Hucht K. A., 2002c, “The enigmatic WR46: A binary or a pulsator in disguise. III. Interpretation”, Astronomy and Astrophysics,385, 619 – 631

    Google Scholar 

  1650. Verner G. A., Chaplin W. J., Elsworth Y., 2006a, “BiSON data show change in solar structure with magnetic activity”, Astrophysical Journal,640, L95 – L98

    Google Scholar 

  1651. Verner G. A., Chaplin W. J., Elsworth Y., 2006b, “The detectability of signatures of rapid variation in low-degree stellar p-mode oscillation frequencies”, Astrophysical Journal, 638, 440 – 445

    Google Scholar 

  1652. Viskum M., Kjeldsen H., Bedding T. R., Dall T. H., Baldry I. K., Bruntt H., Frandsen S. (1998). “Oscillation mode identifications and models for the delta Scuti star FG Virginis”, Astronomy and Astrophysics,335, 549 – 560

    Google Scholar 

  1653. von Neuman J., Wigner E. (1929). “Über merkwürdige diskrete Eigenwerte. Über das Verhalten von Eigenwerten bei adiabatischen Prozessen”, Phys. Z., 30, 467 – 470

    Google Scholar 

  1654. von Zeipel H. 1924, “The radiative equilibrium of a rotating system of gaseous masses”, Monthly Notices of the Royal Astronomical Society,84, 665 – 683

    Google Scholar 

  1655. Vorontsov S. V. (1988). “A search of the effects of magnetic field in the solar five-minute oscillations”, Proc. IAU Symposium No 123, Advances in helio- and asteroseismology, Eds J. Christensen-Dalsgaard, S. Frandsen, Reidel, Dordrecht, 151 – 154

    Google Scholar 

  1656. Vorontsov S. V. (1989). “The inverse problem of helioseismology: the speed of sound in the solar interior”, Pis’ma Astron. Zh., 15, 48 – 60 (English translation: Sov. Astron. Lett., 15, 21 – 26)

    Google Scholar 

  1657. Vorontsov S. V. (1998). “Seismic sounding of the solar interior: differential response technique”, In Poster Volume; Proc. IAU Symposium No 181: Sounding Solar and Stellar Interiors, Eds J. Provost, F.-X. Schmider, Université de Nice, 135 – 136

    Google Scholar 

  1658. Vorontsov S. V. (2004). “Helioseismic inversions and the equation of state”, In Equation-of-State and Phase-Transition Issues in Models of Ordinary Astrophysical Matter, Eds V. Čelebonović, W. Däppen, D. Gough, AIP Conference Proceedings, 731, AIP, Melville, New York, 47 – 63

    Google Scholar 

  1659. Vorontsov S. V., Jefferies S. M. (2005). “Modeling solar oscillation power spectra. I. Adaptive response function for Doppler velocity measurements”, Astrophysical Journal,623, 1202 – 1214

    Google Scholar 

  1660. Vorontsov S. V., Shibahashi H. (1991). “Asymptotic inversion of the solar oscillation frequencies: sound speed in the solar interior”, Publications of the Astronomical Society of Japan,43, 739 – 753

    Google Scholar 

  1661. Vorontsov S. V., Baturin V. A., Pamyatnykh A. A. (1991). “Seismological measurement of solar helium abundance”, Nature,349, 49 – 51

    Google Scholar 

  1662. Vorontsov S. V., Baturin V. A., Pamyatnykh A. A. (1992). “Seismology of the solar envelope: towards the calibration of the equation of state”, Monthly Notices of the Royal Astronomical Society,257, 32 – 46

    Google Scholar 

  1663. Vorontsov S. V., Christensen-Dalsgaard J., Schou J., Strakhov V. N., Thompson M. J. (2002). “Helioseismic measurement of solar torsional oscillations”, Science,296, 101 – 103

    Google Scholar 

  1664. Vučković M., Kawaler S. D., O’Toole S., Csubry Z., Baran A., Zola S., Moskalik P., Klumpe E. W., Riddle R., O’Brien M. S., Mullally F., Wood M. A., Wilkat V., Zhou A.-Y., Reed M. D., Terndrup D. M., Sullivan D. J., Kim S.- L., Chen W. P., Chen C.-W., Hsiao W.-S., Sanchawala K., Lee H.-T., Jiang X. J., Janulis R., Siwak M., Ogloza W., Paparó M., Bognár Z., Sódor Á., Handler G., Lorenz D., Steininger B., Silvotti R., Vauclair G., Oreiro R., Østensen R., Bronowska A., Castanheira B. G., Kepler S. O., Fraga L., Shipman H. L., Provencal J. L., Childers D. (2006). “Whole Earth Telescope Observations of the Pulsating Subdwarf B Star PG 0014+067”, Astrophysical Journal,646, 1230 – 1240

    Google Scholar 

  1665. Vučković M., Aerts C., Østensen R., Nelemans G., Hu H., Jeffery C. S., Dhillon V. S., Marsh T. R. (2007). “The binary properties of the pulsating subdwarf B eclipsing binary PG 1336-018 (NY Virginis)”, Astronomy and Astrophysics,471, 605 – 615

    Google Scholar 

  1666. Vuille F., O’Donoghue D., Buckley D. A. H., Massacand C.-M., Solheim J. E., Bard S., Vauclair G., Giovannini O., Kepler S. O., Kanaan A., Provencal J. L., Wood M. A., Clemens J. C., Kleinman S. J., O’Brien M. S., Nather R. E., Winget D. E., Nitta A., Klumpe E. W., Montgomery M. H., Watson T. K., Bradley P. A., Sullivan D. J., Wu K., Marar T. M. K., Seetha S., Ashoka B. N., Mahra H. S., Bhat B. C., Babu V. C., Leibowitz E. M., Hemar S., Ibbetson P., Mashals E., Meištas E., Moskalik P., Zoła S., Krzesiński J., Pajdosz G. (2000). “Normal modes and discovery of high-order cross-frequencies in the DBV white dwarf GD 358”, Monthly Notices of the Royal Astronomical Society,314, 689 – 701

    Google Scholar 

  1667. Wade G. A., Donati J.-F., Landstreet J. D., Shorlin S. L. S. (2000). “Spectropolarimetric measurements of magnetic Ap and Bp stars in all four Stokes parameters”, Monthly Notices of the Royal Astronomical Society,313, 823 – 850

    Google Scholar 

  1668. Waelkens C. (1991). “Slowly pulsating B stars”, Astronomy and Astrophysics,246, 453 – 468

    Google Scholar 

  1669. Waelkens C., Rufener F. (1983). “HD 129929 - A multiperiodic pulsating early-type star at intermediate galactic latitude”, Astronomy and Astrophysics,119, 279 – 284

    Google Scholar 

  1670. Waelkens C., Aerts C., Kestens E., Grenon M., Eyer L. (1998). “Study of an unbiased sample of B stars observed with Hipparcos: the discovery of a large amount of new slowly pulsating B stars”, Astronomy and Astrophysics,330, 215 – 221

    Google Scholar 

  1671. Walker A., Bono G. (Eds) (2006). Stellar Pulsation and Evolution, Memorie della Societa Astronomica Italiana,77

    Google Scholar 

  1672. Walker G. A. H., Kuschnig R., Matthews J. M., Reegen P., Kallinger T., Kambe E., Saio H., Harmanec P., Guenther D. B., Moffat A. F. J., Rucinski S. M., Sasselov D., Weiss W. W., Bohlender D. A., Božić H., Hashimoto O., Koubský P., Mann R., Ruždjak D., Škoda P., Šlechta M., Sudar D., Wolf M., Yang S., 2005a, “Pulsations of the Oe Star ζ Ophiuchi from MOST Satellite Photometry and Ground-based Spectroscopy”, Astrophysical Journal,623, L145 – L148

    Google Scholar 

  1673. Walker G. A. H., Kuschnig R., Matthews J. M., Cameron C., Saio H., Lee U., Kambe E., Masuda S., Guenther D. B., Moffat A. F. J., Rucinski S. M., Sasselov D., Weiss W. W., 2005b, “MOST detects g-modes in the Be star HD 163868”, Astrophysical Journal,635, L77 – L80

    Google Scholar 

  1674. Walker M. F. (1951). “Variability of ν Eridani”, Publications of the Astronomical Society of the Pacific,63, 176 – 178

    Google Scholar 

  1675. Walker M. F. (1952). “A search for stars of the beta Canis Majoris type”, Astronomical Journal,57, 227 – 231

    Google Scholar 

  1676. Wallerstein G. (2002). “The Cepheids of Population II and Related Stars”, Publications of the Astronomical Society of the Pacific,114, 689 – 699

    Google Scholar 

  1677. Warner B., van Zyl L. (1998). “Discovery of non-radial pulsations in the white dwarf primary of a cataclysmic variable star”, In Proc. IAU Symposium 185: New Eyes to See Inside the Sun and Stars, Eds F.-L. Deubner, J. Christensen-Dalsgaard, D. Kurtz, 185, 321 – 322

    Google Scholar 

  1678. Warner B., Woudt P. A. (2005). “Non-Radial Oscillations in CV Primaries”, In 14th European Workshop on White Dwarfs, Eds D. Koester, S. Moehler, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 334, 453 – 458

    Google Scholar 

  1679. Warner P. B., Kaye A. B., Guzik J. A. (2003). “A theoretical γ Doradus instability strip”, Astrophysical Journal,593, 1049 – 1055

    Google Scholar 

  1680. Watson R. D. (1988). “Contributing factors to flux changes in nonradial stellar pulsations”, Astrophysics and Space Science,140, 255 – 290

    Google Scholar 

  1681. Weiss A. (1987). “Linear nonadiabatic pulsations of R CrB models”, Astronomy and Astrophysics,185, 178 – 188

    Google Scholar 

  1682. Weiss A., Hillebrandt W., Thomas H.-C., Ritter H. (2004). Cox and Giuli’s Principles of Stellar Structure, UK: Princeton Publishing Associates Ltd

    Google Scholar 

  1683. Werner K., Herwig F. (2006). “The Elemental Abundances in Bare Planetary Nebula Central Stars and the Shell Burning in AGB Stars”, Publications of the Astronomical Society of the Pacific,118, 183 – 204

    Google Scholar 

  1684. Whittaker E. T., Watson G. N. (1927). A Course of Modern Analysis, 4th Edition, Cambridge University Press

    Google Scholar 

  1685. Willems B. (2003). “Excitation of oscillation modes by tides in close binaries: constraints on stellar and orbital parameters”, Monthly Notices of the Royal Astronomical Society,346, 968 – 976

    Google Scholar 

  1686. Willems B., Aerts C. (2002). “Tidally induced radial-velocity variations in close binaries”, Astronomy and Astrophysics,384, 441 – 451

    Google Scholar 

  1687. Willems B., Claret A. (2005). “Dynamic Tides and the Evolution of Stars in Close Binaries”, In Tidal Evolution and Oscillations in Binary Stars, Eds A. Claret, A. Giménez, J.-P. Zahn, Publications of the Astronomical Society of the Pacific Conference Series, San Francisco, 333, 52

    Google Scholar 

  1688. Willems B., Van Hoolst T., Smeyers P. (2003). “Nonadiabatic resonant dynamic tides and orbital evolution in close binaries”, Astronomy and Astrophysics,397, 973 – 985

    Google Scholar 

  1689. Willson L. A. (2000). “Mass loss from cool stars: impact on the evolution of stars and stellar populations”, Annual Review of Astronomy and Astrophysics,38, 573 – 611

    Google Scholar 

  1690. Winget D. E. (1982). Gravity Mode Instabilities in DA White Dwarfs, PhD Dissertation, University of Rochester, USA

    Google Scholar 

  1691. Winget D. E., Kepler, S. O. (2008). “Pulsating White Dwarf Stars and Precision Asteroseismology”, Annual Review of Astronomy and Astrophysics,46, 157 – 199

    Google Scholar 

  1692. Winget D. E., van Horn H. M., Hansen C. J. (1981). “The nature of the ZZ Ceti oscillations - Trapped modes in compositionally stratified white dwarfs”, Astrophysical Journal,245, L33 – L36

    Google Scholar 

  1693. Winget D. E., Robinson E. L., Nather R. D., Fontaine G. (1982). “Photometric observations of GD 358 - DB white dwarfs do pulsate”, Astrophysical Journal,262, L11 – L15

    Google Scholar 

  1694. Winget D. E., van Horn H. M., Tassoul M., Hansen C. J., Fontaine G., 1983a, “The pulsation properties of DB white dwarfs - A preliminary analysis”, Astrophysical Journal, 268, L33 – L36

    Google Scholar 

  1695. Winget D. E., Hansen C. J., van Horn H. M., 1983b, “Do pulsating PG1159-035 stars put constraints on stellar evolution?”, Nature,303, 781 – 782

    Google Scholar 

  1696. Winget D. E., Robinson E. L., Nather R. E., Kepler S. O., O’Donoghue D. (1985). “A measurement of secular evolution in the pre-white dwarf star”, Astrophysical Journal, 292, 606 – 613

    Google Scholar 

  1697. Winget D. E., Nather R. E., Hill J. A. (1987). “Two extreme examples of compact pulsators - PG 1115+1158 and PG 1351+489”, Astrophysical Journal,316, 305 – 310

    Google Scholar 

  1698. Winget D. E., Nather R. E., Clemens J. C., Provencal J., Kleinman S. J., Bradley P. A., Wood M. A., Claver C. F., Frueh M. L., Grauer A. D., Hine B. P., Hansen C. J., Fontaine G., Achilleos N., Wickramasinghe D. T., Marar T. M. K., Seetha S., Ashoka B. N., O’Donoghue D., Warner B., Kurtz D. W., Buckley D. A., Brickhill J., Vauclair G., Dolez N., Chevreton M., Barstow M. A., Solheim J. E., Kanaan A., Kepler S. O., Henry G. W., Kawaler S. D. (1991). “Asteroseismology of the DOV star PG 1159 - 035 with the Whole Earth Telescope”, Astrophysical Journal,378, 326 – 346

    Google Scholar 

  1699. Winget D. E., Nather R. E., Clemens J. C., Provencal J. L., Kleinman S. J., Bradley P. A., Claver C. F., Dixson J. S., Montgomery M. H., Hansen C. J., Hine B. P., Birch P., Candy M., Marar T. M. K., Seetha S., Ashoka B. N., Leibowitz E. M., O’Donoghue D., Warner B., Buckley D. A. H., Tripe P., Vauclair G., Dolez N., Chevreton M., Serre T., Garrido R., Kepler S. O., Kanaan A., Augusteijn T., Wood M. A., Bergeron P., Grauer A. D. (1994). “Whole earth telescope observations of the DBV white dwarf GD 358”, Astrophysical Journal,430, 839 – 849

    Google Scholar 

  1700. Witham A. R., Knigge C., Drew J. E., Greimel R., Steeghs D., Gänsicke B. T., Groot P. J., Mampaso A. (2008). “The IPHAS catalogue of Hα emission-line sources in the northern Galactic plane”, Monthly Notices of the Royal Astronomical Society,384, 1277 – 1288

    Google Scholar 

  1701. Witte M. G., Savonije G. J., 1999a, “The dynamical tide in a rotating 10 M main sequence star. A study of g- and r-mode resonances”, Astronomy and Astrophysics, 341, 842 – 852

    Google Scholar 

  1702. Witte M. G., Savonije G. J., 1999b, “Tidal evolution of eccentric orbits in massive binary systems. A study of resonance locking”, Astronomy and Astrophysics,350, 129 – 147

    Google Scholar 

  1703. Witte M. G., Savonije G. J. (2001). “Tidal evolution of eccentric orbits in massive binary systems. II. Coupled resonance locking for two rotating main sequence stars”, Astronomy and Astrophysics,366, 840 – 857

    Google Scholar 

  1704. Wolszczan A., Frail D. A. (1992). “A planetary system around the millisecond pulsar PSR1257 + 12”, Nature,355, 145 – 147

    Google Scholar 

  1705. Wood B. E., Müller H.-R., Zank G. P., Linsky J. L., Redfield S. (2005). “New mass-loss measurements from astrospheric Lyα absorption”, Astrophysical Journal,628, L143 – L146

    Google Scholar 

  1706. Wood P. R. (2000). “Variable red giants in the LMC: Pulsating stars and binaries?”, Publications of the Astronomical Society of Australia,17, 18 – 21

    Google Scholar 

  1707. Wood P. R., Sebo K. M. (1996). “On the pulsation mode of Mira variables: evidence from the Large Magellanic Cloud”, Monthly Notices of the Royal Astronomical Society,282, 958 – 964

    Google Scholar 

  1708. Wood P. R., Alcock C., Allsman R. A., Alves D., Axelrod T. S., Becker A. C., Bennett D. P., Cook K. H., Drake A. J., Freeman K. C., Griest K., King L. J., Lehner M. J., Marshall S. L., Minniti D., Peterson B. A., Pratt M. R., Quinn P. J., Stubbs C. W., Sutherland W., Tomaney A., Vandehei T., Welch D. L. (1999). “MACHO observations of LMC red giants: Mira and semi-regular pulsators, and contact and semi-detached binaries”, In Asymptotic Giant Branch Stars, Eds T. Lebertre, A. Lèbre, C. Waelkens, Astronomical Society of the Pacific Conference Series, San Francisco, 191, 151

    Google Scholar 

  1709. Wood P. R., Olivier E. A., Kawaler S. D. (2004). “Long Secondary Periods in Pulsating Asymptotic Giant Branch Stars: An Investigation of their Origin”, Astrophysical Journal,604, 800 – 816

    Google Scholar 

  1710. Woodard M., Hudson H. S. (1983). “Frequencies, amplitudes and linewidths of solar oscillations from total irradiance observations”, Nature,305, 589 – 593

    Google Scholar 

  1711. Woodard M. F., Libbrecht K. G. (1993). “Observations of time variation in the Sun’s rotation”, Science,260, 1778 – 1781

    Google Scholar 

  1712. Woodard M. F., Noyes R. W. (1985). “Change of solar oscillation eigenfrequencies with the solar cycle”, Nature,318, 449 – 450

    Google Scholar 

  1713. Woodard M. F., Kuhn J. R., Murray N., Libbrecht K. G. (1991). “Short-term changes in solar oscillation frequencies and solar activity”, Astrophysical Journal,373, L81 – L84

    Google Scholar 

  1714. Woodard M. F., Korzennik S. G., Rabello-Soares M. C., Kumar P., Tarbell T. D., Acton S. (2001). “Energy distribution of solar oscillation modes inferred from space-based measurements”, Astrophysical Journal,548, L103 – L106

    Google Scholar 

  1715. Woosley S. E., Chevalier R. A. (1989). “Was the millisecond pulsar in SN1987A spun up or born spinning fast?”, Nature,338, 321 – 323

    Google Scholar 

  1716. Woosley S. E., Heger A., Weaver T. A. (2002). “The evolution and explosion of massive stars”, Reviews of Modern Physics,74, 1015 – 1071

    Google Scholar 

  1717. Wright D. J., Lynas-Gray A. E., Kilkenny D., Cottrell P. L., Shobbrook R. R., Koen C., van Wyk F. W., Kilmartin P. M., Martinez P., Gilmore A. C. (2006). “A photometric and spectroscopic study of the hottest pulsating extreme helium star, V2076 Oph (HD 160641)”, Monthly Notices of the Royal Astronomical Society,369, 2049 – 2058

    Google Scholar 

  1718. Wu Y. (2001). “Combination frequencies in the Fourier spectra of white dwarfs”, Monthly Notices of the Royal Astronomical Society,323, 248 – 256

    Google Scholar 

  1719. Wu Y., Goldreich P. (1999). “Gravity-modes in ZZ Ceti stars. II. Eigenvalues and eigenfunctions”, Astrophysical Journal,519, 783 – 792

    Google Scholar 

  1720. Wu Y., Goldreich P. (2001). “Gravity Modes in ZZ Ceti Stars. IV. Amplitude Saturation by Parametric Instability”, Astrophysical Journal,546, 469 – 483

    Google Scholar 

  1721. Xiong D. R., Deng L. (2001). “Turbulent convection and pulsational stability of variable stars. – IV. The red edge of the δ Scuti instability strip”, Monthly Notices of the Royal Astronomical Society,324, 243 – 248

    Google Scholar 

  1722. Xiong D. R., Chen Q. L., Deng L. (1997). “Nonlocal time-dependent convection theory”, Astrophysical Journal Supplement Series,108, 529 – 544

    Google Scholar 

  1723. Xiong D. R., Deng L., Cheng Q. L. (1998). “Turbulent convection and pulsational stability of variable stars. I. Oscillations of long-period variables”, Astrophysical Journal,499, 355 – 366

    Google Scholar 

  1724. Yıldız M. (2007). “Models of α Centauri A and B with and without seismic constraints: time dependence of the mixing-length parameter”, Monthly Notices of the Royal Astronomical Society, 374, 1264 – 1270

    Google Scholar 

  1725. Yıldız M. (2008). “On the structure of the Sun and α Centauri A and B in the light of seismic and non-seismic constraints”, Monthly Notices of the Royal Astronomical Society, 388, 1143 – 1151

    Google Scholar 

  1726. York D. G., Adelman J., Anderson J. E., Jr., Anderson S. F., Annis J., Bahcall N. A., Bakken J. A., Barkhouser R., Bastian S., Berman E., Boroski W. N., Bracker S., Briegel C., Briggs J. W., Brinkmann J., Brunner R., Burles S., Carey L., Carr M. A., Castander F. J., Chen B., Colestock P. L., Connolly A. J., Crocker J. H., Csabai I., Czarapata P. C., Davis J. E., Doi M., Dombeck T., Eisenstein D., Ellman N., Elms B. R., Evans M. L., Fan X., Federwitz G. R., Fiscelli L., Friedman S., Frieman J. A., Fukugita M., Gillespie B., Gunn J. E., Gurbani V. K., de Haas E., Haldeman M., Harris F. H., Hayes J., Heckman T. M., Hennessy G. S., Hindsley R. B., Holm S., Holmgren D. J., Huang C.-h., Hull C., Husby D., Ichikawa S.-I., Ichikawa T., Ivezić Ž., Kent S., Kim R. S. J., Kinney E., Klaene M., Kleinman A. N., Kleinman S., Knapp G. R., Korienek J., Kron R. G., Kunszt P. Z., Lamb D. Q., Lee B., Leger R. F., Limmongkol S., Lindenmeyer C., Long D. C., Loomis C., Loveday J., Lucinio R., Lupton R. H., MacKinnon B., Mannery E. J., Mantsch P. M., Margon B., McGehee P., McKay T. A., Meiksin A., Merelli A., Monet D. G., Munn J. A., Narayanan V. K., Nash T., Neilsen E., Neswold R., Newberg H. J., Nichol R. C., Nicinski T., Nonino M., Okada N., Okamura S., Ostriker J. P., Owen R., Pauls A. G., Peoples J., Peterson R. L., Petravick D., Pier J. R., Pope A., Pordes R., Prosapio A., Rechenmacher R., Quinn T. R., Richards G. T., Richmond M. W., Rivetta C. H., Rockosi C. M., Ruthmansdorfer K., Sandford D., Schlegel D. J., Schneider D. P., Sekiguchi M., Sergey G., Shimasaku K., Siegmund W. A., Smee S., Smith J. A., Snedden S., Stone R., Stoughton C., Strauss M. A., Stubbs C., SubbaRao M., Szalay A. S., Szapudi I., Szokoly G. P., Thakar A. R., Tremonti C., Tucker D. L., Uomoto A., Vanden Berk D., Vogeley M. S., Waddell P., Wang S.-i., Watanabe M., Weinberg D. H., Yanny B., Yasuda N. (2000). “The Sloan Digital Sky Survey: Technical Summary”, Astronomical Journal,120, 1579 – 1587

    Google Scholar 

  1727. Young A. T. (1971). “Seeing and Scintillation”, Sky and Telescope,42, 139

    Google Scholar 

  1728. Yudin B. F., Fernie J. D., Ikhsanov N. R., Shenavrin V. I., Weigelt G. (2002). “UBVJHKLM photometry and modeling of R Coronae Borealis”, Astronomy and Astrophysics,394, 617 – 624

    Google Scholar 

  1729. Yudin R. V., Evans A., Barrett P., Albinson J. S., Davies J. K., Hutchinson M. G. (2003). “Polarimetry of evolved stars. III. RV Tau and R CrB stars”, Astronomy and Astrophysics,412, 405 – 416

    Google Scholar 

  1730. Zahn J.-P. (1966). “Les oscillation libres d’une étoile en rotation”, C. R. Acad. Sci. Paris, Ser. B, 263, 1077 – 1081

    Google Scholar 

  1731. Zahn J.-P. (1975). “The dynamical tide in close binaries”, Astronomy and Astrophysics,41, 329 – 344

    Google Scholar 

  1732. Zahn J.-P. (1991). “Convective penetration in stellar interiors”, Astronomy and Astrophysics,252, 179 – 188

    Google Scholar 

  1733. Zahn J.-P. (1992). “Circulation and turbulence in rotating stars”, Astronomy and Astrophysics,265, 115 – 132

    Google Scholar 

  1734. Zahn J.-P., Talon S., Matias J. (1997). “Angular momentum transport by internal waves in the solar interior”, Astronomy and Astrophysics,322, 320 – 328

    Google Scholar 

  1735. Zahn J.-P., Brun A. S., Mathis S. (2007). “On magnetic instabilities and dynamo action in stellar radiation zones”, Astronomy and Astrophysics,474, 145 – 154

    Google Scholar 

  1736. Zalewski J. (1993). “Pulsational properties of post-AGB stars”, Acta Astronomica,43, 431 – 440

    Google Scholar 

  1737. Zerbi F. M., Garrido R., Rodriguez E., Krisciunas K., Crowe R. A., Roberts M., Guinan E. F., McCook G. P., Sperauskas J., Griffin R. F., Luedeke K. D., 1997a, “The gamma Doradus-type variable 9 Aurigae: results from a multi-site campaign”, Monthly Notices of the Royal Astronomical Society,290, 401 – 410

    Google Scholar 

  1738. Zerbi F. M., Rodríguez E., Garrido R., Martín S., Akan K., Luedeke K., Keskin V., Ibanoglu C., Evren S., Tunca Z., Pekunlu R., Paparo M., Nuspl J., Krisciunas K., Jiang S. Y., 1997b, “The Gamma Dor variable HD 164615 - Results from a multisite photometric campaign”, Monthly Notices of the Royal Astronomical Society,292, 43 – 51

    Google Scholar 

  1739. Zerbi F. M., Rodríguez E., Garrido R., Martín S., Ferro A. A., Sareyan J. P., Krisciunas K., Akan M. C., Evren S., Ibanoǧlu C., Keskin V., Pekunlu R., Tunca Z., Luedeke K., Paparo M., Nuspl J., Guerrero G. (1999). “The gamma DOR variable HR 8799: results from a multisite campaign”, Monthly Notices of the Royal Astronomical Society,303, 275 – 283

    Google Scholar 

  1740. Zhang X.-B., Zhang R.-X., Li Z.-P. (2005). “S1280 and S1284: Two Oscillating Blue Stragglers in the Open Cluster M67”, Chinese Journal of Astronomy and Astrophysics,5, 579 – 586

    Google Scholar 

  1741. Zhevakin S. A. (1953). “K Teorii Cefeid. I (On the theory of Cepheids. I)] (in Russian), Astron. Zh.,30, 161 – 179

    Google Scholar 

  1742. Zhevakin S. A. (1963). “Physical basis of the pulsation theory of variable stars”, Annual Review of Astronomy and Astrophysics,1, 367 – 400

    Google Scholar 

  1743. Zima W. (2006). “A new method for the spectroscopic identification of stellar non-radial pulsation modes. I. The method and numerical tests”, Astronomy and Astrophysics,455, 227 – 234 (Erratum: Astronomy and Astrophysics,497, 827, 2009)

    Google Scholar 

  1744. Zima W. (2008). “FAMIAS User Manual”, Communications in Asteroseismology,155, 17 – 121

    Google Scholar 

  1745. Zima W., Wright D., Bentley J., Cottrell P. L., Heiter U., Mathias P., Poretti E., Lehmann H., Montemayor T. J., Breger M. (2006). “A new method for the spectroscopic identification of stellar non-radial pulsation modes. II. Mode identification of the δ Scuti star FG Virginis”, Astronomy and Astrophysics,455, 235 – 246

    Google Scholar 

  1746. Zirker J. B. (2003). Sunquakes. Probing the interior of the Sun, The Johns Hopkins University Press

    Google Scholar 

  1747. Zverko J., Zižňovský J., Adelman S. J., Weiss W. W. (Eds) (2004). Proc. IAU Symposium 224: The A-Star Puzzle, Cambridge University Press, 224

    Google Scholar 

  1748. Zwintz K., Marconi M., Kallinger T., Weiss W. W. (2004). “Pulsating pre-Main Sequence stars in young open clusters”, In Proc. IAU Symposium 224: The A star puzzle, Eds J. Zverko, J. Zižňovský, S. J. Adelman, W. W. Weiss, Cambridge University Press, 353 – 358

    Google Scholar 

  1749. Zwitter T., Siebert A., Munari U., Freeman K. C., Siviero A., Watson F. G., Fulbright J. P., Wyse R. F. G., Campbell R., Seabroke G. M., Williams M., Steinmetz M., Bienaymé O., Gilmore G., Grebel E. K., Helmi A., Navarro J. F., Anguiano B., Boeche C., Burton D., Cass P., Dawe J., Fiegert K., Hartley M., Russell K., Veltz L., Bailin J., Binney J., Bland-Hawthorn J., Brown A., Dehnen W., Evans N. W., Re Fiorentin P., Fiorucci M., Gerhard O., Gibson B., Kelz A., Kujken K., Matijevič G., Minchev I., Parker Q. A., Peñarrubia J., Quillen A., Read M. A., Reid W., Roeser S., Ruchti G., Scholz R.-D., Smith M. C., Sordo R., Tolstoi E., Tomasella L., Vidrih S., Wylie-de Boer E. (2008). “The Radial Velocity Experiment (RAVE): Second Data Release”, Astronomical Journal,136, 421 – 451

    Google Scholar 

Download references

Author information

Authors and Affiliations

  1. Instituut voor Sterrenkunde, Celestijnenlaan 200D, 3001, Leuven, Belgium

    C. Aerts

  2. Department of Astrophysics (IMAPP), Radboud Universiteit Nijmegen, Heyendaalseweg 135, 6525, AJ, Nijmegen, The Netherlands

    C. Aerts

  3. Department of Physics and Astronomy, Aarhus University, Building 1520, Ny Munkegade, 8000, Aarhus C, Denmark

    J. Christensen-Dalsgaard

  4. University of Central Lancashire Centre for Astrophysics, Preston, PR1 2HE, UK

    D. W. Kurtz

Authors
  1. C. Aerts
    View author publications

    You can also search for this author in PubMed Google Scholar

  2. J. Christensen-Dalsgaard
    View author publications

    You can also search for this author in PubMed Google Scholar

  3. D. W. Kurtz
    View author publications

    You can also search for this author in PubMed Google Scholar

Corresponding author

Correspondence to C. Aerts .

Rights and permissions

Reprints and permissions

Copyright information

© 2010 Springer Science+Business Media B.V.

About this chapter

Cite this chapter

Aerts, C., Christensen-Dalsgaard, J., Kurtz, D.W. (2010). The Future. In: Asteroseismology. Astronomy and Astrophysics Library. Springer, Dordrecht. https://doi.org/10.1007/978-1-4020-5803-5_8

Download citation

  • DOI: https://doi.org/10.1007/978-1-4020-5803-5_8

  • Published:

  • Publisher Name: Springer, Dordrecht

  • Print ISBN: 978-1-4020-5178-4

  • Online ISBN: 978-1-4020-5803-5

  • eBook Packages: Physics and AstronomyPhysics and Astronomy (R0)

Publish with us

Policies and ethics

Search

Navigation