Measuring spectral transmission and refractive index of AgCl1−Br (0 ⩽x⩽ 1) and Ag1−Tl Br1−I (0 ⩽x⩽ 0.05) at the wavelength of 10.6 μm

“…These devices require highly transparent optics as well as fiber optics to deliver the analytical signal to the receivers. There is a very limited number of materials suitable for the manufacture of fibers: chalcogenide [1], fluoride [2] and telluride [3] glasses, single crystals and ceramics based on silver and thallium (I) halides solid solutions [4][5][6]. The last of the materials covers the widest spectral range with low radiation absorption and high strength characteristics.…”

Methods for Properties Analysis of Crystalline Materials Based on Solid Solutions of Silver and Thallium (I) Halides

“…These devices require highly transparent optics as well as fiber optics to deliver the analytical signal to the receivers. There is a very limited number of materials suitable for the manufacture of fibers: chalcogenide [1], fluoride [2] and telluride [3] glasses, single crystals and ceramics based on silver and thallium (I) halides solid solutions [4][5][6]. The last of the materials covers the widest spectral range with low radiation absorption and high strength characteristics.…”

Methods for Properties Analysis of Crystalline Materials Based on Solid Solutions of Silver and Thallium (I) Halides

“…Инфракрасные световоды на основе твердых растворов галогенидов серебра прозрачны в широком диапазоне от 2.0 до 25.0 µm при показателе преломления 2.2−2.4 [3]. Кроме того, такие волокна нетоксичны, негигроскопичны и обладают низкими оптическими потерями (0.1 dB/m) [2].…”

Влияние механической вибрации на оптические свойства инфракрасных световодов состава AgCl-AgBr

Refractive index dispersion of AgCl1-xBrx (0≤x≤1) and Ag1-xTlxBr1-xIx (0≤x≤0.05)