Investigating the optical properties of polycrystalline AgCl1-xBrx (0≤x≤1) and Ag0.95Tl0.05Br0.95I0.05 for IR engineering / Korsakov A.S., Vrublevsky D.S., Korsakov V.S., Zhukova L.V. // Applied Optics. - 2015. - V. 54, l. 26. - P. 8004-8009.

ISSN:
1559128X
Type:
Article
Abstract:
Using the Michelson technique we measured the refractive indices for the plane-parallel thin plates made of AgCl1-xBrx(0 ≤ x ≤ 1) and, to the best of our knowledge, for the first time for the Ag0.95Tl0.05Br0.95I0.05 plate, manufactured by hot embossing, at 632.8 nm. We recorded their absorption spectra within the range of 0.19-41.67 μm using UV-Vis spectrophotometry and Fourier transform infrared spectroscopy, which demonstrated that the increase of substituent silver bromide or thallium monoiodide mole fraction in the corresponding solid solution causes the optical density to grow. As the result it moves the transmission edges toward longer wavelengths, while slightly reducing the transmission peak. © 2015 Optical Society of America.
Author keywords:
Index keywords:
Fourier transform infrared spectroscopy; Refractive index; Silver; Silver halides; Hot-embossing; Michelson; Mole fraction; Polycrystalline; Silver bromide; Thin plate; Transmission peaks; UV-vis spec
DOI:
10.1364/AO.54.008004
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Affiliations Ural Federal University, ICT, 19 Mira str., Yekaterinburg, Russian Federation
Funding Details 1761.2013.3, Ministry of Education and Science of the Russian Federation; 5440.2015.3, Ministry of Education and Science of the Russian Federation
References Fendley, J.J., Measurement of refractive index using a Michelson interferometer (1982) Phys. Educ., 17, pp. 209-211; Zhukova, L.V., Korsakov, A.S., Vrublevsky, D.S., (2014) New Infrared Materials-Crystals and Optical Fibers, p. 280. , (Ural University); Bunimovich, D., Katzir, A., Dielectric properties of silver halide and potassium halide crystals (1993) Appl. Opt., 32, pp. 2045-2048; Shiryaev, V.S., Adam, J.-L., Boussard-Plédel, C., Lucas, J., Churbanov, M.F., Infrared fibers based on Te-As-Se glass system with low optical losses (2004) J. Non-Cryst. Solids, 336, pp. 113-119; Zhukova, L., Korsakov, A., Chazov, A., Vrublevsky, D., Zhukov, V., Photonic crystalline IR fibers for the spectral range of 2-40 μm (2012) Appl. Opt., 51, pp. 2414-2418; Korsakov, A., Zhukova, L., Vrublevsky, D., Korsakova, E., Investigating the properties of infrared PCFs based on AgCl-AgBr, AgBr-TlI, AgCl-AgBr-AgI(TlI) crystals theoretically and experimentally (2014) Opt. Spectrosc., 117, pp. 960-963; Gayer, O., Lyakhovsky, I., Brodetzki, G., Nagli, L., Katzir, A., (2006) Conference on Lasers and Electro-Optics (CLEO)/QELS, , (Optical Society of America), paper JThC32; Artjushenko, V., Bocharnikov, A., Sakharova, T., Usenov, I., Midinfrared fiber optics for 1-18 μm range (2014) Optik & Photonik, 9, pp. 35-39; Rave, E., Ephrat, P., Kedmi, E., Katzir, A., Silver halide photonic crystal fibers for the middle infrared (2004) Appl. Opt., 43, pp. 2236-2241; Korsakov, A., Zhukova, L., Korsakova, E., Zharikov, E., Structure modeling and growing AgClxBr1-x, Ag1-xTlxBr1-xIx, and Ag1-xTlxClyIzBr1-y-z crystals for infrared fiber optics (2014) J. Cryst. Growth, 386, pp. 94-99
Correspondence Address Zhukova, L.V.; Ural Federal University, ICT, 19 Mira str., Russian Federation
Publisher OSA - The Optical Society
CODEN APOPA
Language of Original Document English
Source Scopus