Abstract
Analysis of living biological specimens by methods of micrography and holography will be developed if an xuv-laser operating in the wavelength region between the К edges of carbon and oxygen, 43.77 to 23.37 Å, is available. X-ray holography has been demonstrated already at 206/209 Å with a neon-like Se laser.1 Extension of xuv-lasers to shorter wavelengths are being pursued either with electron-collisional excitation scheme2 or with recombining plasma scheme.3-5
© 1988 Optical Society of America
PDF ArticleMore Like This
Y. Kato, M. Yamanaka, H. Daido, T. Tachi, H. Nishimura, H. Shiraga, E. Miura, P. R. Herman, H. Takabe, T. Jitsuno, M. Takagi, S. Nakai, C. Yamanaka, M. H. Key, G. J. Tallents, and S. J. Rose
SWLOS47 Short Wavelength Coherent Radiation: Generation and Applications (HFSW) 1988
D. Kim, C. H. Skinner, A. Wouters, E. Valeo, D. Voorhees, and S. Suckewer
SWLOS116 Short Wavelength Coherent Radiation: Generation and Applications (HFSW) 1988
B. J. MacGowan, J. L. Bourgade, P. Combis, C. J. Keane, R. A. London, M. Louis-Jacquet, D. L. Matthews, S. Maxon, D. Naccache, M. D. Rosen, G. Thiell, and D. A. Whelan
SWLOS2 Short Wavelength Coherent Radiation: Generation and Applications (HFSW) 1988