Structure modeling and growing AgClxBr1-x, Ag 1-xTlxBr1-xIx, and Ag 1-xTlxClyIzBr1-y-z crystals for infrared fiber optics / Korsakov A., Zhukova L., Korsakova E., Zharikov E. // Journal of Crystal Growth. - 2014. - V. 386, l. . - P. 94-99.

ISSN:
00220248
Type:
Article
Abstract:
In this paper we describe the aggregate technology of producing variable composition crystals, based on the solid solutions of silver and Tl +-doped halides for creating infrared photonic crystal fibers in the spectral range of 2-40 μm by extruding, we also produce all the necessary equipment. We specified the minimum melting point position for the AgCl-AgBr phase diagram. We also investigated the fundamental physical properties of new crystals and fibers: transmission losses, transmission range, refraction index, hardness, and density. © 2013 Published by Elsevier B.V.
Author keywords:
A1. Computer simulation; A1. Crystal structure; A1. Defects; A1. Doping; A1. Solid solutions; A2. Bridgman technique
Index keywords:
Bridgman techniques; Infrared fiber optics; Infrared photonic crystal fibers; Refraction index; Spectral range; Structure modeling; Transmission loss; Transmission ranges; Computer simulation; Silver
DOI:
10.1016/j.jcrysgro.2013.09.045
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Affiliations Ural Federal University, Mira str. 28, Yekaterinburg 620002, Russian Federation; D. Mendeleev University of Chemical Technology of Russia, Miusskaya sq. 9, Moscow 125047, Russian Federation
Author Keywords A1. Computer simulation; A1. Crystal structure; A1. Defects; A1. Doping; A1. Solid solutions; A2. Bridgman technique
References Zhukova, L., Primerov, N., Korsakov, A., Chazov, A., Crystals for IR techniques AgClxBr1-x and AgCl xBryI1-x-y and optical fibers based on them (2008) Inorganic Materials A, 44, pp. 1516-1521; Voronkova, E.M., Grechyushnikov, B.N., (1965) Optical Materials for Infrared Engineering, 336p. , A.A. Askochenskiy (Ed.), Science, Moscow, Russia; Artjushenko, V.G., Dianov, E.M., New development of crystalline IR fibers. New materials for optical waveguides (1987) Proceedings of the SPIE, 799 (799-811), pp. 75-83; Korsakov, A., Zhukova, L., (2011) Crystals for IR Fiber Optics, , LAP LAMBERT Academic Publishing GmBH & Co., Saarbrücken, Germany; Ormont, B., (1973) Introduction in Physical Chemistry and Crystal Chemistry of Semiconductors; Korsakov, A., Zhukova, L., Zharikov, E., Zharikov, E., Vrublevsky, D., Korsakov, V., Synthesis of new AgBr-TlI, AgClxBr1-x nanostructured crystals, including TlI-doped ones (2010) Non-Ferrous Metals A, 1, pp. 69-72; http://dic.academic.ru/dic.nsf/es/22313/%D0%98%D0%9E%D0%94; Korsakov, A.S., Zhukova, L.V., Korsakova, E.A., Zhukov, V.V., Korsakov, V.S., AgBr-TlI crystal thermodynamic study and production of nanostructured IR fibers based on them (2013) Non-Ferrous Metals A, 4, pp. 62-66; Groznensky, V., Zhuravlev, V., Kitaev, G., Zhukova, L., Redetermination of AgCl-AgBr phase diagrams (1985) Russian Journal of Inorganic Chemistry A, 30, pp. 1033-1035; Wicks, C.E., Block, F.E., (1963) Thermodynamic Properties of 65 Elements: Their Oxides, Halides, Carbides and Nitrides, , U.S. Govt. Print. Off., Washington, USA; Bulatov, N., Grebneva, A., Zhukova, L., Application of regular solution models for description and evaluation of crystal-melt equilibrium in AgCl-AgBr system (2009) Melts A, 6, pp. 87-92; Kovtunenko, P.V., (1993) Physical Chemistry of Solid State, Defective Crystals, Higher School; Sarkisov, P.D., (2003) Chemical Technologies, , D. Mendeleev University of Chemical Technology of Russia; Kuznetsov, S.V., Osiko, V.V., Tkachenko, E.A., Inorganic nanoflorides and composites based on them (2006) Russian Chemical Reviews, 75 (12), pp. 1137-1248; Grebneva, A.A., Bulatov, N.K., Zhukova, L.V., Hydrochemical synthesis of AgClxBr1-x solid solutions (2010) Inorganic Materials, 46 (6), pp. 673-678; Avetisov, I.Kh., Mel'kov, A.Yu., Zinov'ev, A.Yu., Zharikov, E.V., Growth of nonstoichiometric PbTe crystals by the vertical bridgman method using the axial-vibration control technique (2005) Crystallography Reports, 50 (SUPPL. 1), pp. S124-S129. , DOI 10.1134/1.2133987; Avetisov, I.K., Zharikov, E.V., Zinov'ev, A.Y., Mel'kov, A.Y., A computer-based facility for investigating the melt hydrodynamics during bridgman crystal growth at low-frequency vibrations in a melt (2004) Instruments and Experimental Techniques, 47 (4), pp. 554-561. , DOI 10.1023/B:INET.0000038409.50723.3b; Fedyushkin, A.I., Bourago, N.G., Influence of vibrations on Marangoni convection and melt mixing in Czochralski crystal growth (2001) Proceedings of the 2nd Pan Pacific Basin Workshop on Microgravity Sciences Pasadena, pp. 1-9; Zhukova, L., Korsakov, A., Chazov, A., Vrublevsky, D., Zhukov, V., Photonic crystalline IR fibers for the spectral range of 2-40 μm (2012) Applied Optics, 51 (13), pp. 2414-2418
Correspondence Address Zhukova, L.; Ural Federal University, Mira str. 28, Yekaterinburg 620002, Russian Federation; email: l.v.zhukova@ustu.ru
CODEN JCRGA
Language of Original Document English
Abbreviated Source Title J Cryst Growth
Source Scopus