Infrared Optical Materials VI: 4-5 April 1988, Orlando, Florida, Volume 6Solomon Musikant |
Contents
INFRARED TRANSMITTING CERAMICS | 49 |
INFRARED WAVEGUIDES | 99 |
INFRARED GLASSES | 123 |
Copyright | |
1 other sections not shown
Common terms and phrases
absorption coefficient aluminate glasses aluminum applications BaF2 carrier Ceram chalcogenide glass cladding coating concentration cryogenic crystal curve cutoff wavelength damage dark current detector dewar diagrid diameter diamond machined electron emission evaluated experimental F/Zr ratio fabricated fluoride glass function furnace GaAs germanium glass fibers glass formation HgCd HgZn high-power hollow fibers imaging increase infrared INFRARED OPTICAL MATERIALS interferometric lanthanum laser welding measured melt metal microns multiphonon numerical aperture obtained one-phonon optical fiber oxide parameters PbTe peak phonon Phys polycrystalline preform properties PtSi diodes radiation Raman range reflection losses refractive index region resistance room temperature sample sapphire Schottky barrier shown in Figure silicon solid-liquid interface spectra SPIE spinel Strehl strength symmetric stretching frequency Table technique thermal shock thick transmission transmittance transparent values Wave number waveguides wavelength window Y₂O yttria Zr-F distance ZrF4