Semiconductor Physics, Quantum Electronics & Optoelectronics. 2013. V. 16, N 4. P. 349-353.
DOI: https://doi.org/10.15407/spqeo16.04.349


References

1.    M. Frumar, Z. Cernosek, J. Jedelsky et al., Photoinduced changes of strucrure and properties of amorphous binary and ternary chalcogenides. J. Optoelectron. Adv. Mater. 3 (2), p. 177-188 (2001).
 
2.    V.V. Petrov, A.A. Kryuchin, S.M. Shanoilo, S.A. Kostyukevich, V.G. Kravets, A.S. Lapchuk, Optical Disk : History, State, Perspectives. Naukova dumka, Kyiv, 2003 (in Russian).
 
3.    J. Teteris, M. Reinfelde, Application of amorphous chalcohenide semiconductor thin films in optical recording technologies. J. Optoelectron. Adv. Mater. 5 (5), p. 1335-1360 (2003).
 
4.    V.V. Petrov, A.A. Kryuchin, S.A. Kostyukevich, V.M. Rubish, Inorganic Photolitography. Institute of Metal Physics, NAS of Ukraine, Kyiv, 2007 (in Ukrainian).
 
5.    E.F. Venger, A.V. Melnichuk, A.V. Stronsky, Photostimulated Process in Chalcogenide Vitreous Semiconductors and Their Practical Application. Akademperiodika Publ., Kyiv, 2007 (in Russian).
 
6.    V.V. Petrov, A.A. Kryuchin, V.M. Rubish, Materials for Perspective Optoelectronic Devices. Naukova dunka-Verlag, Kiev, 2012 (in Russian).
 
7.    K. Shimakawa, A.Kolobov, S.R. Elliot, Photoinduced effects and metastability in amorphous semiconductors and insulators. Adv. Phys., 44 (6), p. 475-588 (1995).
https://doi.org/10.1080/00018739500101576
 
8.    B.J. Eggleton, B.L. Davies, K. Richardson, Chalcogenide photonics. Nature photonics, 5, p. 141-148 (2011).
 
9.    D. I. Semak, V.M.Rizak, I.M. Rizak, Photothermo-structural Transformations of Chalcogenides. Zakarpattya Publ., Uzhgorod, 1999 (in Ukrainian).
 
10.    O.I. Shpotyuk, Yu. N. Shunin, F.V. Pirogov, K.K. Shwarts, V. N. Kornelyuk, Destruction-polymerization Transformations in Chalcogenide Vitreous Semiconductors. Institute of Physics, Latvian AS Publ., Riga, 1991 (in Russian).
 
11.    J. Reyes, E. Marquez, J.B. Ramirez-Malo et al., Optical constants of thermally evaporated amorphous GeSe3 thin films. J. Mater Sci., 30, p. 4133-4137 (1995).
https://doi.org/10.1007/BF00360720
 
12.    E. Sleeckx, L. Tichy, P. Nagels et al., Thermally and photoinduced irreversible changes in the optical properties of amorphous GexSe100-x films. J. Non-cryst. Solids 192&200, p. 723-727 (1996).
 
13.    K. Petkov, Compositional dependence of the photoinduced phenomena in thin chalcogenide films. J. Optoelectron. Adv. Mater. 4(3), p. 611-629 (2002).
 
14.    R. Todorov, Tz. Iliev, K. Petkov, Light-induced changes in the optical properties of thin films of Ge-S-Bi (Te, In) chalcogenides. J. Non-cryst. Solids 326&327, p. 263-267 (2003).
 
15.    V.M. Maryan, G.T. Horvat, M.M. Pop et al., Photostimulated changes in the optical properties of sulphides germanium and arsenic thin films. Phys. Chem. Solid State 9 (3), p. 524-528 (2008) (in Ukrainian).
 
16.    V. Lyubin, M. Klebanov, A. Bruner, et al., Transient photodarkening and photobleaching in glassy GeSe2 films. Optical Mater., 33, p. 949–952 (2011).
https://doi.org/10.1016/j.optmat.2010.11.028
 
17.    E.V.Gera, M.M.Pop, M.O.Durcot et al., Photoinduced effects in thin films of Ge-Se systems. .// Mat. 3th Intern. Meeting "Clusters and nanostructured materials (CNM-3)", Uzhgorod, Ukraine, 2012.
 
18.    R.R. Kumar, A.R. Barik, E.M. Vinod et al., Crossover from photodarkening to photobleaching in a-GexSe100-x thin films. Optics Lett. 38 (10), p. 1682-1684 (2013).
https://doi.org/10.1364/OL.38.001682
 
19.    I.I. Shpak, I.P. Studenyak, M. Kranjces, Optical absorption edge and structural disorder in electron-irradiated As2S3 chalcogenide glasses. J. Opto-electron. Adv. Mater. 5(5), p. 1135-1138 (2003).
 
20.    R. Swanepoul, Determination of the thickness and optical constants of amorphous silicon. J. Phys. E: Sci. Instrum. 16, p. 1214-1222 (1983).
https://doi.org/10.1088/0022-3735/16/12/023
 
21.    J. E. Griffits, G.P. Espinosa, J.C. Phillips et al., Raman spectra and thermal laser annealing of Ge(SxSe1-x)2 glasses. Phys. Rev. B 28 (8), p. 4444-4453 (1983).
https://doi.org/10.1103/PhysRevB.28.4444
 
22.    W. Yong, M. Osamu, I. Koichi et al., A Raman scattering investigation of the strucrure of glassy and liquid GexSe1-x. J. Non-cryst. Solids, 232&234, p. 702-707 (1998).
 
23.    I.P. Kotsalas, D. Papadimitriou, C. Raptis et al., Raman study of photostructural changes in amorphous GexSb0,4-xS0,6. J. Non-cryst. Solids. 226, p. 85-91 (1998).
https://doi.org/10.1016/S0022-3093(97)00493-6
 
24.    P. Boolchand , X. Feng , W.J. Bresser, Rigidity transitions in binary Ge-Se glasses and the intermediate phase. J. Non-Cryst. Solids, 293&295, p. 85-91 (2001).
 
25.    P.P. Shtets, V.I. Fedelesh, V.M. Kabatsij et al., Structure, dielectric and photoelectric properties of glasses in Ge-Sb-S system. J. Optoelectron. Adv. Mater. 3 (4), p. 937-940 (2001).
 
26.    L. Cai, P. Boolchand, Nanoscale phase separation of GeS2 glass.Phil. Mag. B 82 (15), p. 1649-1657 (2002).
 
27.    P.S. Salmon, Structure of liquidus and glasses in the Ge-Se binary system. J. Non-cryst. Solids, 353, p. 2959-2974 (2007).
https://doi.org/10.1016/j.jnoncrysol.2007.05.152
 
28.    Jun Zhang, Haiyan Xiao, Jie Zhang. Compositional dependence of refractive index and Raman spectra of Ge(SxSe1-x)2 glasses. J. Optoelectron. Adv. Mater. 13 (7), p. 848-851 (2011).
 
29.    Han Xuecai, Sun Guangying, Liu Yu et al., Structure and vibrational modes of Ge-S-Se glasses : Raman scattering and AB initio calculations. Chalcogenide Lett. 9 (11), p. 465-474 (2012).
 
30.    O.I. Shpotyuk, R.Ya. Golovchak, A.P. Kovalskiy et al., On the mechanism of radiation-indused optical effects in vitreous As2S3-GeS2. Ukr. J. Phys. Opt. 3 (2), p. 134-143 (2002).
https://doi.org/10.3116/16091833/3/2/134/2002