HE-CD Lasers Using Recirculations Geometry, Karl G. HernQvist, IEEE Journal of Quantum Electronics, vol. Qe-9, No. 9, Sep. 1972, pp. 740-743. |
Review on Corrosion Phenomena in Molten Lithium, P.A. Steinmeyer, et al., pp. 349-434. |
Degradation of Silicon Carbide by Molten Lithium, James W. Cree, et al. Communications of the American Ceramic Society, Nov. 1987, pp. C-318--C321. |
Compatibility of Ceramics with Liquid Na and Li, R. N. Singh, Journal of the American Ceramic Society, vol. 59, No. 3-4 pp. 112-114. |
Wavelength Considerations in Solft-X-Ray Projection Lithography, Andrew M. Hawryluk, et al., Applied Optics, vol. 32, No. 34, Dec. 1, 1993, pp. 7062-7067. |
Molybdenum/Beryllium Multilayer Mirrors for Normal Incidence in the Extreme Ultraviolet, K.M. Skulina, et al., Applied Optics, vol. 34, No. 19, Jul. 1, 1995, pp. 3727-3730. |
Ion Lasers Deliver Power at Visible and UV Wavelengths, Jeff Hecht, Laser Focus World, Dec. 1992, pp. 97-98. |
Stabilite 2017, General Purpose Ion Laser, Spectro-Physics Lasers. |
Silfvast, et al. Simple Metal-Vapor Recombination Lasers Using Segmented Plasma Excitation, Applied Physics Letters 36(8), Apr., 1980, pp. 615-661. |
Marconi, et al., Time-Resolved Extreme Ultraviolet Emission From a Big Ionized Lithium Capillary Discharge, Applied Physics Letters, 54(22), May, 1989, pp. 2180-2182. |
Rocca, et al., Study of the Soft X-Ray Emission From Carbon Ions in Capillary Discharge, IEEE Journal Quantum Electronics, vol. 29#1, Jan. 1983, pp. 182-191. |
Silfvast, et al., Laser Plasma Source Charactization for SXPL, OSA Proceedings on Soft-X-Ray Proj. Lithog. vol. 18, Jan. 1994, pp. 117-126. |
Nagata, et al., Soft-X-Ray Amplification of the Lyman Transition by Optical-Field-Induced Ionization, American Physical Society, vol. 71, #23, Dec. 1983, pp. 3774-3777. |
Silfvast, William T., Development of Efficient Narrow Spectral Width Soft-X-Ray Sources at 13.5 nm, Creol, University of Central Florida, Jan. 1994, pp. 1-5. |