Infrared Optical Materials VI: 4-5 April 1988, Orlando, Florida, Volume 6Solomon Musikant |
Contents
Belgium G Marangoni M DAntoni C Musilli Elettronica SpA Italy M Fabbricotti ESTEC Netherlands | 7 |
INFRARED TRANSMITTING CERAMICS | 49 |
INFRARED WAVEGUIDES | 99 |
Copyright | |
2 other sections not shown
Common terms and phrases
absorption absorption coefficient allowed applications band beam calculated carrier cladding coating compared concentration constant controlled core corresponding crystal curve damage dependence detector determined dewar diameter diamond diodes discussion draw effect electron emission energy estimated evaluated experimental F/Zr fabricated fiber Figure fluoride frequency function furnace germanium glass growth heat HgCd hollow hollow fibers imaging impact increase indicates infrared intensity interface laser length limited liquid losses lower machining materials measured mechanical melt metal method microns mirror mount Note observed obtained optical optical materials oxide parameters peak performed Phys polycrystalline possible present produced properties radiation range ratio REFERENCES reflection refractive region removed reported resistance sample shown shows Solid spectra strength stretching surface symmetric Table technique temperature thermal thick transmission transmittance values wavelength welding window