Abstract
Since the theoretical [36.1] and experimental [36.2,3] demonstrations of the effectiveness of soft x rays in imaging biological material there has been considerably study [36.4,5] given to the prospects for further development of the presently existing techniques. This has been motivated to a large extent by advances in source technology, particularly the use of undulators on electron storage rings and recent improvements in short wavelength lasers. The present authors have carried out theoretical evaluations of the possibilities of holographic imaging and have also recorded a number of holograms using the U15 soft x-ray beam line at the National Synchrotron Light Source (NSLS) 750 MeV storage ring at Brookhaven. These have been successfully reconstructed using He:Cd laser light.
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References
J. Kirz and D. Sayre: Soft X-ray microscopy of biological specimens in Synchrotron Radiation Research H. Winick and S. Doniach, Eds. Plenum, New York (1980)
G. Schmahl et al.: X-ray microscopy in Uses of Synchrotron Radiation in Biology H.B. Stuhrmann, Academic, London, 1982
J. Kenney et al.: Proceedings of the Brookhaven Conf. on Synchrotron Radiation Instrumentation, Sept. 1983
D. Sayre: Prospects for long wavelength x-ray microscopy and diffraction in Imaging Processes and Coherence in Physics Ed. M. Schlenker et al., Proceedings Les Houches 1979, Springer Verlag, New York (1979)
J.C. Solem and G.C. Baldwin: Science, 218, 4569, 229 (1982)
See for example N.F. Mott and H. Massey: The Theory of Atomic Collisions, 2nd Edition, Oxford, 1950, p. 116
TL-Henke: Monterey Conf. on Low Energy X-Ray Diagnostics, Proc. AIP 75, 146 (1981)
B.L. Bragg: Nature, 143, 678 (1939)
See for example: Optical Transforms H. Lipson, Academic, London (1972)
R.J. Collier, C.B. Burckhardt and L.H. Lin: Optical Holography Academic, 1971
H.M. Smith: Principles of Holography Wiley, New York, 1975
F.T.S. Yu: Optical Information Processing Wiley, New York, (1983)
J.W. Goodman: Introduction to Fourier Optics, McGraw Hill, San Francisco (1968)
D. Gabor: Proc. Roy. Soc. A197 454 (1949)
E.N. Leith, J. Upatneiks: J.O.S.A., 52, 1123 (1962)
G.W. Stroke: Appl. Phys. Lett. 6, 201 (1965)
G.A. Tyler, B.J. Thompson: Optica Acta 23, 685 (1976)
C. Pellegrini: Brookhaven National Laboratory Report #31684 (1982); also Optical Society of America, Topical Meeting on Free Electron Generation of Extreme Ultraviolet Coherent Radiation, Brookhaven Sept. 19, 1983; and Department of Energy Field Task Proposal (1983) by C. Pellegrini, et al.
M. Born and E. Wolf: Principles of Optics 3rd Ed., Pergamon, Oxford, p. 508 (1965)
M.R. Howells, J. Kirz, S. Krinsky: A beamline for experiments with coherent soft x-rays, Brookhaven Laboratory Report #32519 (1982)
V.V. Aristov and G.A. Ivanova. J. Appl. Cryst. 12, 19 (1979)
G.L. Rogers and J. Palmer: J. Microsc. (Oxford), 89, 125 (1969)
J. Solem: High intensity x-ray holography: an approach to high resolution snapshot imaging of biological specimens. Los Alamos National Laboratory Report LA-9508-MS (1982)
A.M. Kondratenko, A.N. Skrinsky: Opt. Spectrosc. (USSR) 42, 189 (1977)
SPIE Meeting on Advances in Soft X-Ray Science and Technology, Brookhaven, Oct. 17, 1983. to be published as Proc. SPIE, Vol. 447 36.26 R.W. Meier, J.O.S.A. 56, 219 (1966)
J. Kirz et al, this volume, no.27
G. Kellstrom: Nov. Acta Reg. Soc. Sci., Uppsaliensis 8, 5 (1932) 36.29 B. Reuter and H. Mahr: J. Phys. E 9, 746 (1976)
S. Aoki, S. Kikuta: Jap. J. Appl. Phys. 11, 1857 (1972)
S. Aoki, et al.: Jap. J. Appl. Phys. 13, 9, 1385 (1974)
A. Baez: J.O.S.A. 42, 756 (1952)
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Howells, M.R. (1984). Possibilities for X-Ray Holography Using Synchrotron Radiation. In: Schmahl, G., Rudolph, D. (eds) X-Ray Microscopy. Springer Series in Optical Sciences, vol 43. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-38833-3_37
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DOI: https://doi.org/10.1007/978-3-540-38833-3_37
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