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Journal of Materials Science: Materials in Electronics
Published in: Journal of Materials Science: Materials in Electronics 24/2017

06-09-2017

Tl2S–Ga2S3–GeS2 glasses for optically operated laser third harmonic generation

Authors: O. V. Tsisar, L. V. Piskach, O. V. Parasyuk, L. P. Marushko, I. D. Olekseyuk, O. V. Zamuruyeva, P. Czaja, P. Karasiński, A. M. El-Naggar, A. A. Albassam, G. Lakshminarayana

Published in: Journal of Materials Science: Materials in Electronics | Issue 24/2017

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Abstract

We have shown a possibility to apply Tl2S–Ga2S3–GeS2 glasses as an effective photoinduced third harmonic generation materials. As a photoinducing beam, the 200 mW green laser at 532 nm was used. The 15 ns pulsed Nd:YAG laser with power density tuned up to 800 MW/cm2 was used. Glass-formation region in the quasi-ternary system Tl2S–Ga2S3–GeS2 was investigated by quenching molten alloys from 1300 K. The minimum concentration of the glass-forming agent GeS2 is 30 mol%. Characteristic thermal parameters and optical absorption spectra of the glasses of the system were investigated. The variations of the bandgap energy were determined. It is crucial that the photoinducing beam was excited in the bulk of the materials and the output third harmonic generation signal was observed for the 355 nm beam formed near the surface.
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Literature
1.
I. Barchij, M. Sabov, A.M. El-Naggar, N.S. AlZayed, A.A. Albassam, A.O. Fedorchuk, I.V. Kityk, Tl4SnS3, Tl4SnSe3 and Tl4SnTe3 crystals as novel IR induced optoelectronic materials. J. Mater. Sci. 27, 3901–3905 (2016)
2.
E.R. Shaaban, M.N. Abd-el Salam, M. Mohamed, M.A. Abdel-Rahim, A.Y. Abdel-Latief, Determination of the optical constants of As–Se–Ag chalcogenide thick films with high precision for optoelectronics applications. J. Mater. Sci. (2017). doi:10.​1007/​s10854-017-7175-0 CrossRef
3.
L.E. Zou, P.P. He, B.X. Chen, M. Iso, Nonlinear optical properties of As20S80 system chalcogenide glass using Z-scan and its strip waveguide under bandgap light using the self-phase modulation. AIP Adv. 7, 025003 (2017)CrossRef
4.
V.V. Aleksandrov, Glass formation and ionic conductivity in the glasses of the GeS2–Ga2S3–MCl systems (М = Tl, Ag). Fiz. Khim. Stekla 16, 728–731 (1990)
5.
T.N. Orkina, E.E. Antonova, Electron microscopy investigation of the chalcogenide glasses based on the Ga2S3–GeS2 system. Fiz. Khim. Stekla 16, 150–151 (1990)
6.
B. Frumarova, M. Frumar, J. Oswald, Synthesis and properties of GeS2–Ga2S3:NdCl3 and GeS2–Ga2S3:Nd2O3 glasses. J. Non-Cryst. Solids 213, 58–62 (1997)CrossRef
7.
A.-M. Loireau-Lozac’h, M. Guittard, Systeme GeS2–Ga2S3. Diagramme de phase obtention et proprietes des verres. Ann. Chim. 10(2), 101–104 (1975)
8.
Z.U. Borisova, E.A. Bychkov, Tver’yanovich YuS. Interaction of Metals with Chalcogenide Glasses (LGU, Leningrad, 1991), p. 252
9.
Z. Boncheva-Mladenova, Z.C. Ivanova, Investigation of glass phases of the germanium-sulfur-gallium system. іn Amorphous Semiconductors’ 78 (Pardubice, 1978), pp. 103–106
10.
S. Barnier, M. Guittard, M. Palazzi, Raman and infrared studies of the structure of gallium sulphide based glasses. Mater. Sci. Eng. В 14, 413–417 (1992)CrossRef
11.
L. Qiming, Z. Peng, IR Li2Ga2GeS6 nanocrystallized GeS2–Ga2S3–Li2S electroconductive chalcogenide glass with good nonlinearity. Sci. Rep. 4, 5719 (2014)
12.
S. Barnier, M. Guittard, C. Julien, Glass formation and structural studies of chalcogenide glasses in the CdS–Ga2S3–GeS2 system. Mater. Sci. Eng. 7(3), 209–214 (1990)CrossRef
13.
A.H. Kevshyn, V.V. Halyan, H.Y. Davydyuk, O.V. Parasyuk, I.I. Mazurets, Concentration dependence of the optical properties of glassy alloys in the HgS–Ga2S3–GeS2 system. Glass Phys. Chem. 36, 27–32 (2010)CrossRef
14.
A. Feltz, A. Krautwald, Über glasbildung und eigenschaften von chalkogenidsystemen. Zur glasbildung im systemen GeS2–GeS–GaS1+k. Z. Chem. 19(2), 78–79 (1979)CrossRef
15.
N.A. Kuliyeva, M.B. Babanly, Phase equilibria in the Tl2S–GeS system and specific melting heat of the compounds Tl2GeS2 and Tl2GeS3. Zhurn. Neorg. Khim. 17(3), 421 (1981)
16.
V.I. Starosta, V.B. Lazarev, E.Yu. Peresh, V.V. Mudryi, Phase equilibria and properties of compounds in the Tl2S–GeS2 system. Zhurn. Neorg. Khim. 29(12), 3131–3136 (1984)
17.
K. Petkov, E. Cernoskova, D. Kozhuharova, Thermal and mechanical properties of some thallium-containing chalcogenides. J. Optoelectron. Adv. Mater. 6(1), 149–155 (2004)
18.
W. Kauzmann, The nature of the glassy state and the behavior of liquids at low temperatures. Chem. Rev. 43, 219 (1948)CrossRef
19.
Ya. Savan, I.I. Kozhina, G.M. Orlova, Kh. Binder, Investigation of the crystallization of glasses in the Сu–As–Se system. Neorgan. Mater. 5(3), 492 (1969)
20.
O.V. Parasyuk, A.H. Reshak, T.L. Klymuk, I.I. Mazurets, O.V. Zamuruyeva, G.L. Myronchuk, J. Owsik, Photothermal poling of glass complexes Ag2S–Ga2S3–P2S5. Opt. Commun. 307, 1–4 (2013)CrossRef
21.
I.V. Kityk, IR-induced second harmonic generation in Sb2Te3–BaF2–PbCl2 glasses. J. Phys. Chem. B 107, 10083–10087 (2003)CrossRef
22.
T. Srikumar, I.V. Kityk, C.S. Rao, Y. Gandhi, M. Piasecki, P. Bragiel, V.R. Kumar, N. Veeraiah, Photostimulated optical effects and some related features of CuO mixed Li2O–Nb2O5–ZrO2–SiO2 glass ceramics. Ceram. Int. 37, 2763–2779 (2011)CrossRef
23.
Ya.G. Klyava, Urbach’s rule and continual disorder in non-crystalline solids. Fizika Tverdogo Tela 27(5), 1350–1353 (1985)
24.
I.A. Veinstein, A.F. Zatsepin, V.S. Cortov, Yu.V. Shchapova, Urbach’s rule in the PbO–SiO2 glasses. Fizika Tverdogo Tela 42(2), 224–229 (2000)
25.
V.T. Adamiv, YaV Burak, I.V. Kityk, J. Kasperczyk, R. Smok, M. Czerwinski, Nonlinear optical properties of Li2B4O7 single crystals doped with potassium and silver. Opt. Mater. 8(3), 207‒213 (1997)CrossRef
26.
I.V. Kityk, Photoinduced second-harmonic generation of YBa2Cu3O7-delta single crystals. J. Phys. 6, 4119 (1994)
27.
A. Majchrowski, I.V. Kityk, E. Mandowska, A. Mandowski, J. Ebothe, T. Lukasiewicz, Several features of emission spectra of Pr3+ ions incorporated into Li2B4O7 glasses. J. Appl. Phys. 100, 053101 (2006)CrossRef
Metadata
Title
Tl2S–Ga2S3–GeS2 glasses for optically operated laser third harmonic generation
Authors
O. V. Tsisar
L. V. Piskach
O. V. Parasyuk
L. P. Marushko
I. D. Olekseyuk
O. V. Zamuruyeva
P. Czaja
P. Karasiński
A. M. El-Naggar
A. A. Albassam
G. Lakshminarayana
Publication date
06-09-2017
Publisher
Springer US
Published in
Journal of Materials Science: Materials in Electronics / Issue 24/2017
Print ISSN: 0957-4522
Electronic ISSN: 1573-482X
DOI
https://doi.org/10.1007/s10854-017-7854-x

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