Abstract
A comprehensive account of vacuum pumps of all types is given by Power (1966) in his book ‘High Vacuum Pumping Equipment’. Apart from some account needed for clarification, the present article therefore deals mainly with developments since 1965/6. These developments are almost all in the form of improvements on existing types of pump. Only one radically new method of pumping has been introduced: the accommodation pump (Hobson, 1970; Hobson and Pye, 1972) and this will not be considered further here because it does not promise to become a commercially viable pump for transporting significant quantities of gas.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Akiyama, Y., Nakayama, K., and Saito, M. (1971) Vacuum, 21, 167.
Baechler, W. G., and Knobloch, D. (1972) J. Vac. Sci. Technol., 9, 402.
Bailey, B. M., and Chuan, R. L. (1959) 1958 5th Natl. Symp. Vac. Tech. Trans.,262.
Baker, M. A., Holland, L., and Stanton, D. A. G. (1972) J. Vac. Sci. Technol., 9, 412.
Baker, M. A., and Laurenson, L. (1966) Vacuum, 16, 633.
Baker, M. A., and Laurenson, L. (1972) J. Vac. Sci. Technol., 9, 375.
Baker, M. A., and Staniforth, G. H. (1968) Vacuum, 18, 17.
Barnes, C. B., and Pinson, J. (1968)Proc. 4th Intl. Vac. Congress,219, (Institute of Physics, London).
Beams, J. W. (1961) Trans. 7thAVSNatl. Symp. 1960, 1.
Becker, W. (1958) Vakuum-Technik, 7, 149.
Becker, W. (1966) Vacuum, 16, 625.
Bills, D. G. (1967) J. Vac. Sci. Technol., 4, 149.
Brand (1970) Brit. Pat. 1, 178, 265.
Butussow, W. I., Masslennikow, J. A., Miljagin, M. J., Tschuchin, I. A., and Schewtscenko, T. A. (1968) Proc. 4th Intl. Vac. Congress, 377 ( Institute of Physics, London ).
Chellis, F. F., and Hogan, W. H. (1964) Advan. Cryog. Eng., 9, 545.
Clausing, R. E. (1960) Thermonuclear Semiannual Report ORNL 2926.
Denison, D. R. (1967) J. Vac. Sci. Technol., 4, 156.
Denison, D. R. (1968) Proc. 4th Intl. Vac. Congress, 377 ( Institute of Physics, London ).
Eder, F. X., Hengevoss, J., and Woessner, H. (1968) Proc. 4th Intl. Vac. Congress, 409 ( Institute of Physics, London ).
Eder, F. X., and Wössner, H. (1971) ‘Ergebnisse der Hochvakuumtechnik and der Physik dünner
Schichten’ (M. Aüwarter, Ed.), 348 (Wissenschaftliche Verlag, Stuttgart).
Forth, H. J. (1968) Proc. 4th Intl. Vac. Congress, 425 ( Institute of Physics, London ).
Fulker, M. J. (1968) Vacuum, 18, 445.
Giorgi, T. A., and Ricca, F. (1963) Suppl. Nuovo Cim., 5, 261.
Gomer, R. (1972) Vacuum, 22, 521.
Harra, D. J., and Snouse, T. W. (1972) J. Vac. Sci. Technol., 9, 552.
Henning, J. (1971) Vacuum, 21, 523.
Hobson, J. P. (1970) J. Vac. Sci. Technol., 7, 231.
Hobson, J. P., and PYE, A. W. (1972) J. Vac. Sci. Technol., 9, 252.
Holkeboer, D. M. (1968) Proc. 4th Intl. Vac. Congress, 405 ( Institute of Physics, London ).
Holland, L., Fulker, M. J., and Laurenson, L. (1967) Suppl. al Nuovo Cimento, 5, (1), 242.
holland, L. (1970) Vacuum, 20, 175.
Jepsen, R. L. (1968) Proc. 4th Intl. Vac. Congress, 317 ( Institute of Physics, London ).
lawson, R. W., and woodward, J. W. (1967) Vacuum, 17, 205.
Mccracken, G. M., and Pashley, N. A. (1966) J. Vac. Sci. Technol., 3, 96.
mirgel, K. H. (1972) J. Vac. Sci. Technol., 9, 408.
Osterstrom, G. E., and Shapiro, A. H. (1972) J. Vac. Sci. Technol., 9, 405.
pisani, C., and della porta, P. (1967) SuppL Nuovo Cim., 5, 261.
Della Porta, P., and Ferrario, B. (1968) Proc. 4th Intl. Vac. Cong., 369 ( Institute of Physics, London ).
Power, B. D. (1966) ‘High vacuum pumping equipmentmping equipment ( Chapman and Hall, London).
prevot, F., and sledziewski, Z. (1972) J. Vac. Sci. Technol., 9, 49.
Robertson, D. D. (1968) Proc. 4th Intl. Vac. Congress, 373 ( Institute of Physics, London ).
Sadler, P. (1969) Vacuum, 19, 17.
Stern, S. A., Hemstreet, R. A., and Ruttenbur, D. M. (1966) J. Vac. Sci. Technol, 3, 99.
Tom, T., and James, B. D. AVS 13th Natl. Vac. Symp. Abstracts,21.
Tom, T. (1972) J. Vac. Sci. Technol. 9, 383.
Turner, F. A., and Hogan, W. H. (1966) J. Vac. Sci. Technol., 3, 252.
Warren, K. A., Denison, D. R., and Bills, D. G. (1967) Rev. Sci. Instrum., 38, 1019.
Wutz, M. (1968) Proc. 4th Intl. Vac. Congress, 283 ( Institute of Physics, London ).
Wycliffe, H., and Salmon, A. (1971) Vacuum, 21, 223.
Anderson, C. A. (1969) J. Mass Spectr. Ion Phys., 2, 61 - 74.
Armour, D. G., and Carter, G. (1972) J. Phys. E. Sci. Instrum., 5, 2 - 8.
Ball, D. J., Buck, T. M., Macnair, D., and Wheatley, G. H. (1972) Surface Science, 30, 69 - 90.
Barrett, C. S., Mueller, R. M., and White, W. (1968) J. AppL Phys., 39, 4695 - 4700.
Bashara, N. M., Buckman, A. B., and Hall, A. C. (1969) Surface Science, 16, 462.
Behrisch, R. (1968) Canad. J. Phys., 46, 527 - 535.
Benninghoven, A. (1971) Surface Science, 28, 541 - 572.
Benninghoven, A., and Loebach, E. (1971) Review Sci. Instrum., 42, 49 - 52.
Bootsma, G. A., and Meyer, F. (1969) Surface Science, 14, 52 - 76.
Carter, G., and Colligon, J. S. (1968) ‘Ion bombardment of solids (Heinemann Ed. Books Ltd., London).
Castaing, R., and Slodzian, G. (1965) Proc 1st Int. Conf. Electron and Ion Beam Science and Technology (J. Wiley, New York ), p. 780 - 98.
Chang, C. C. (1971) Surface Science, 25, 53 - 79.
Crewe, A. V., Eggenberger, D. N., Wall, J., and Walter, L. M. (1968) Rev. Sci. Instr., 39, 576-583. DUNCOMB, P. (1969) J. Sci. Instr., 2, 553 - 560.
Estrup, E. J., and Mcrae, E. G. (1971) Surface Science, 25, 1 - 52.
Fogel, Ya., M. (1972) Int. J. Mass Spectr. Ion Phys., 9, 109 - 125.
Gallon, T.E. and Matthew, J. A. D. (1972) Rev. Phys. Tech., 3, 31 - 64.
Goff, R. F. (1972) J. Vac. Sci. Tech., 9, 1.
Grigson, C. B. (1968) Studies of thin polycrystalline films electron beams, Adv. Electron and Electron Phys., 4, Electron Beams and Laser Beam Technology, 187.
Harris, L. A. (1968) J. App. Phys., 39, 1419-1427.
Hearle, J. W. S., Sparrow, J. T. and Cross., P. M. (1972) ‘The use of the scanning electron microscope’ ( Pergamon Perss, Oxford ), 284 pp.
Heinrich, K. F. J. (Ed.) (1968) Quantitaive electron probe microanalysis, NBN Special Publ. 298 (Oct.)
Kammlott, G. W. (1971) Surface Science, 25, 1120 - 146.
Liebl, H. (1967) J. App. Phys., 38, 5277 - 5283.
Livesey R. G., and Butcher, G. (1968) An apparatus for examnation of single crystals by scattered protons, 4th Int. Vac. Congress.Inst. Phys. Lomdon, pt. 1, 203 - 206.
Nelson, R. S. (1968)’The observation of atomic collisions in crystalline solid’s (North Holland Publ, Co., Amsterdam), 281 pp.
Nishmura H., Fujiwara, T., and Okano, J. (1971) Mass Spectroscopy, 19, 205 - 212.
Oatley, C. W., Nixon, W. C., and Pease, R. F. W. (1965) Advance Electr. Electron Phys., 21, 181 - 247.
Palmberg, P. W., and Rhodin T. N. (1968) J. App. Phy., 39, 2425 - 2432.
Passaglia et al. (Eds.) (1964) Ellipsometry in the measurement of surface and thin films Nat. Bur. Stds. Miscl. Publ. 256.
Reuter, W. (1971) Surface Science, 25, 80 - 119.
Rouberol, J.M., Guernet, J., Deschamaps, P., Dagnot, J. P., and Goyon, J. M. (1968) Micro analyser using secondary ion emission (in French), Proc, 5th Internat. Symp. X-ray and Microanalysis, Tibingen, Germany ( Spring-Verlag, Berlin, 1969 ), 311-318.
Rudenauer, F. G. (1971) Int. J. Mass Spectr. Ion Phys., 6 309-323 (see also (1972) 9, 106 - 107 ).
Sewell, P.B., Mitchell, D. F., and Cohen M. (1969) Dev. Applied Spectroscopy, 7A (Plenum Press, New York), 61 - 79. Ed. E. L. Grove and A, J. Perkins.
Siegbahn, K., Nordling, C., et al (1967) Nova Acta Reg. Soc. Sic. Upsaliensis, Ser IV, 20.
Siegbahn, K. (1972) ‘ Electron Spectrdscipy’ (Ed. D. A. Shirley), Conf Asilomar, Pac. Grove Calif. (North Holland Publ. Co.), p. 15 - 25.
Smith, D.P. (1971) Surface Science, 25, 171 - 191.
Socha, A. J. (1971) Surface Science, 25, 147 - 170.
Taylor, N. J. (1969) Rev. Sci. Instrum., 40, 792 - 804.
Thornyon, P. R. (1968) ‘Scanning electron microscopy’ (Chapman and Hall,London), 312 pp.
Turner, D.W., Baker, C., Baker, A. C. and Brundle, C. R. (1970) ‘Molecular Photo electron spectroscopy’(John Wiley and Sons, New York), 369 pp.
Werner, H. W. (1969) Dev. Applied Spectroscopy, 7A (Plenum Press, New York), 239 - 266. Ed. E. L. Grove and Perkins.
Vrakking, J. J., and Meyer, F. (1971) Appl. Phys. Letters, 18, 223 - 228.
Anderson, G. S., Mayer, WM, N., and Wehner, G. K. (1962) J. Appl. Phys., 33, 2991–2992. Anderson, G. S., and Wehner, G. K. (1960) J. Appl. Phys., 31, 2305–2313.
Almen, O., and Bruce, G. (1961)Nucl. Inst. Methods,11,257–278.
Bach, H. (1968) Naturwissenschaften, 55, 439–440.
Bach, H. (1970) Non-Crystalline Solids, 3, 1–32.
Baede, A. P. M., Jungmann, W. F., and Los, J. (1971)Physica, 54, 459–467.
Behrisch, R., and Weissmann, R. (1969)Phys. Letts, 30A, 506–507.
Berghaus, B., and Burkhardt, W. (1943) German Pat. 736130.
Berghaus, B. (1936) Brit. Pat. 486629.
Betz, G., Dobrozemsky, R., and Viehböck, F. P. (1970)Nederlands Tijdschrift V. Vacuumtechniek,8 203–206.
Cheney, K. B., and Pitkin, E. T. (1965) J. Appl. Phys., 36, 3542–3544.
Chopra, K. L., and Randlett (1966) ‘A duoplasmatron ion source for vacuum sputtering of thin films’, Tech. No. TR-96. Ledgement Lab., Kennecott Copper Co.
Coburn, J. W. (1970) Rev. Sci. Instrum, 41, 1219–1223.
Compton, K. T., and Lamar, E. S. (1933) Phys. Rev., 44, 338–344.
Davidse, P. D., and Maissel, L. T. (1965) Third Inter. Vacuum Congress, Stuttgart, Vol. 2, Part III, 651–655.
Davidse, P. D., and Whitaker, H. L. (1971) Brit. Pat. No. 1242492.
Dushman, S. (1949) ‘Scientific foundations of vacuum technique’ (J. Wiley, New York).
Farmery, B., and Thompson, M. W. (1968)Phil. Mag., 18, 415–424.
Fetz, H. (1942) Z. Phys., 119, 590–595.
Frazer, D. B., and Melchior, H. (1972) J. Appl. Phys., 43, 3120–3127.
Gill, W. D., and Kay, E. (1965) Rev. Sci. Instrum., 36, 277–282.
Goldstein, R. M., and Bellina, J. J. JUN. (1970) Rev. Sci. Instrum., 41, 1110.
Gaydou, F. P. (1967) Vacuum, 17, 325–327.
Gronlund, F., and Moore, W. J. (1960) J. Chem. Phys., 32, 1540–1545.
Güntherschulze, A. (1926)Z. Phys., 38, 575–583.
Güntherschulze, A. (1942) Z. Phys., 119, 79–91.
Heisig, U., Schiller, S., and Beister, G. (1965) Microminiaturization,Proc. IFAC/IFIPSymp., Munich, 547–565.
Helwig, G. (1952)Z. Phys., 132, 621–632.
Helwig, G., and Koenig, H. (1955) Z. Angew. Phys., 7, 323
Herzog, R. F. K., Poschenrieder, W. P., and Satkiewicz, F. G. (1973)Radiation Eff, 18, 199–205.
Hines, R. L., and Wallor, R. (1961) J. App/. Phys., 32, 202–204.
Holland, L. (1954) Brit. Pat. No. 736512.
Holland, L. (1956) ‘The vacuum deposition of thin films’ ( Chapman and Hall Ltd., London).
Holland, L., Putner, T. I., and Jackson, G. N. (1968)J.. Phys. E, J. Sci. Instrum., 1, 32–34.
Holland, L., and Priestland, C. R. D. (1972) Vacuum., 22, 133–149.
Kay, E. (1963) J. Appl. Phys., 34, 760–769.
Kay, E., Campbell, and Poenisch, A. P. (1967) US Pat. No. 3, 325, 394.
LiveseY, R. G. (1972) Vacuum. 22, 595–597.
Macdonald, R. J., Ostry, D., Zwangobani, E., and Dennis, E. (1970) Nederlands Tijdschrift V. Vacuumtechniek, 8, 207–212.
Mattox, D. M., and Kominiak, G. J. (1971) J. Vac. Sci. Technol., 8, 194–198.
Mitchell, I. V., and Maddison, R. C. (1971) Vacuum, 21, 591–595.
Mordike, B. L. (1960) Wear, 3, 374–377.
Mullaly, J. R. (1971) Res/Dev.,40–44.
Penning, F. M. (1936) U.S. Pat. 2,146, 025.
Pitkin, E. T., Macgregor, M. A., Salemme, V., and Bierge, R. (1960) ‘Investigation of the interaction of high velocity-ions with metallic surfaces’, ARL Tr-60–299 OTS, Dept. Commerce, Washington D.C.
Rawlins, T. G. R. (1971) ‘Sputtered ZnS films on silicon’, SRDE Rep. No. 71006.
Rivlin, J. (1971) ‘Sputtering on plastics: definition of the state of the art today’, Trans. Conf and School–The Elements, Techniques and Applications of Sputtering, Brighton ( M.R.C. Ltd. ), 53–57.
Schroeder, J. B., Dieselman, H. D., and Douglass, J. W. (1971)Appl. Opt., 10,295–299.
Seitz, F., and Koeler, J. S. (1956) Solid State Phys, 2, 307.
Silsbee, R. H. (1957) J. Appl. Phys., 28, 1246.
Stirling, A. J., and Westwood, W. D. (1970) J. AppL Phys., 41, 742–748.
Stirling, A. J., and Westwood, W. D. (1971) Appl. Phys., J. Phys. D., 4, 246–252.
Stuart, R. V., and Wehner, G. K. (1964) J. Appl. Phys., 35, 1819–1824.
Theurer, H. C., and Hauser, J. J. (1965) Trans. Metall. Soc. AIME., 233, 588–591.
Thompson, M. W. (1959) Phil. Mag., 4, 139–141.
Thompson, M. W., and Nelson, R. S. (1962) Phil. Mag., 7, 2015.
Unvala, B. A., and Pearmain, K. (1970) J. Mat. Sci., 5, 1016–1018.
Visser, J. (1971) Vacuum systems for sputtering, Trans. Conf. and School.–The Elements, Technique and Applications of Sputtering, Brighton ( M.R.C. Ltd. ) 105–130.
Vossen, J. L., and O’neill, Jr., J. J. (1968)R.C.A. Rev., 29, 566–581.
Wehner, G. K. (1955) J. Appl. Phys., 26, 1056–1057.
Wehner, G. K. (1956) Phys. Rev., 102, 690–704.
Wehner, G. K. (1960) J. Appl. Phys., 31, 1392–1397.
Wehner, G. K., and Rosenberg, D. (1960) J. Appl. Phys., 31, 177–179.
Wehner, G. K. (1961) Trans. 8th Vac. Sympos. and 2nd Inter. Congr.,239–244.
Weijsenfeld, C. H. (1966) ‘Yield energy and angular distribution of sputtered atoms’, Thesis, Rijksuniversiteit Te Utrecht.
Westwood, W. D., and Boynton, R. (1972) J. Appl. Phys., 43, 2691–2697.
Westwood, W. D., and Wilcox, P. S. (1971) J. Appl. Phys., 42, 4055–4062.
Winters, H. F., and Kay, E. (1972) J. Appl. Phys., 43, 794–799.
Woodyard, J. R., and Burleigh Cooper, C. (1964) J. Appl. Phys., 35, 1107–1117.
Behrisch, R. (1964) ‘Sputtering of solid bodies under ion bombardment’ (in German), Ergebnisse der Exakten Naturwissenschaften, 35 (Springer Verlag).
Carter, G., and Colligon, J. S. (1968) ‘Ion bombardment of solids’ ( Heinemann Educational Books, London).
Nelson, R. S. (1968) ‘The observation of atomic collisions in crystalline solids’ ( North-Holland Publishing Co., Amsterdam).
Kaminsky, M. (1965) ‘Atomic and ionic impact phenomena on metal surfaces’ ( Springer-Verlag, Berlin).
Palmer, D. W., ed. (1970) ‘Atomic collision phenomena in solids’,Proc. Intern. Conf Sussex Univ. 1969 ( North-Holland Publishing Co., Amsterdam ).
Thompson, M. W. (1969) ‘Defects and radiation damage in metals’ (Cambridge University Press).
Trillat, J. J., ed. (1962) ‘Ionic bombardment theory and applications’, Int. Sympos. Nat. Scient. Res. Center, Bellevue (Gordon and Breach Sci. Publ., New York ).
Anon. (1966) ‘Symposium on the deposition of thin films by sputtering’, Co-sponsored by Univ. Rochester and Consolidated Vacuum Corpt., Rochester, New York.
Amer. SOC. Metals (1964) ‘Thin films’ Seminar Oct. ( 1963 ) ( Chapman and Hall, London ).
Anderson, J. C., ed. (1966) ‘The use of thin films in physical investigations’ ( Academic Press, London ).
Berry, R. W., Hall, P. M., and Harris, M. T. (1968) ‘Thin film technology’ ( New Jersey, Van Nostrand).
Chopra, K. L. (1969) ‘Thin film phenomena’ ( McGraw-Hill, New York).
Holland, L. (1956) ‘Vacuum deposition of thin films’ (Chapman & Hall, London) (6th printing 1966 with up-dated ref. list).
Holland, L. (1965) Chapter 4, Vacuum deposition apparatus and techniques, ‘Thin film microelectronics’ (Chapman and Hall, London ).
Kay, E. (1962) ‘Impact evaporation and thin film growth in a glow discharge’, Advances in Electronics, 17, 245–321.
Maissel, L. I., and Glang, R., ed. (1970) ‘Handbook on thin film technology’ ( McGraw-Hill, New York ).
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1974 E. & F. N. Spon Ltd.
About this chapter
Cite this chapter
Holland, L., Steckelmacher, W., Yarwood, J. (1974). Recent Developments in Vacuum Science and Technology. In: Holland, L., Steckelmacher, W., Yarwood, J. (eds) Vacuum Manual. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-8120-4_3
Download citation
DOI: https://doi.org/10.1007/978-94-011-8120-4_3
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-011-8122-8
Online ISBN: 978-94-011-8120-4
eBook Packages: Springer Book Archive