Abstract
A number of chalcogenide glasses, thin films and structures made of these inorganic polymer materials are known as photosensitive media. It means that different processes may result from the interaction of light quantum with such semiconductor material (see Table 1). These effects are described in many books [1-3], excellent review articles are given by V. Lyubin in 1984, S. R. Elliott, in 1986 [5], K. Tanaka in 1990 [5], H. Fritzsche in 1994 [7] and others [8,9]. So, further in this paper we shall make references to these ones or to the papers containing our previous results. Also we shall consider effects caused by relatively small energy quantums hv ≥ E * g , where E * g is analogous to the band gap energy, but the illumination capacity may be varied in a great range from the usual for photoconductivity measurements (10-5-10-3 W ·cm-2) up to the heating or even melting the material (102-105 W-cm-2).
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References
Mott, N.F., Davis, E.A. (1979) Electron processes in non-crystalline materials, Clarendon Press, Oxford.
Shvarts K.K. (1986) Physics of optical recording in dielectrics and semiconductors (in Russian), Zinatne, Riga.
Nonsilver photographic processes (in Russian). (1984) Edited by Kartuzhansky, A.L., Chimia, Leningrad.
Lyubin, V.M. (1984) Photographic processes on the basis of chalcogenide glass semiconductors (in Russian), in A.L. Kartuzhansky (ed.) Nonsilver photographic processes, Chimia, Leningrad, pp. 193–222.
Elliott, S.R. (1986) A unified model for reversible photostructural effects in chalcogenide glasses, J. Non-Cryst. Solids 81, 71–98.
Tanaka K. (1990) Photoinduced changes in chalcogenide glasses, Reviews of Solid State Science 4, 641–659.
Fritzsche, H. (1993) The origin of reversible and irreversible photostructural changes in chalcogenide glasses, Phil. Mag. B 68, 561–572.
Kikineshi, A.A. (1989) Peculiarities of photophysical processes in the recording media based on the chalcogenide glasses (in Russian), Kvantovaja Elektronika (Kiev) 37, 31–41.
Panasjuk, L.M. (1985) Photographic characteristics of thermoplastic materials (in Russian), Uspekhi Nauchnoj Photographii 23, 187–193.
Vlasov, V.I., Semak, D.G., Chepur D.V. (1978) Temperature dependences of optical recording and erasing on AsSe chalcogenide glasses (in Russian), J. Scientific and Applied Photography and Cinematography 23, 51–53.
Kikineshi, A.A., Shipljak, M.M., Spesivikh, A.A., Bentsa, V.M., Sterr, A.A. (1988) Properties of photosensitive heterostructures on the basis of AsSe glass (in Russian), Photoelectronics (Odessa) 2, 91–95.
Jakovuk, O.A., Novoselov, S.K., Borisova, Z.U. (1976) Photostructural transformations in As-Ge-S, As-Ge-Se glasses (in Russian), Izvestija AN USSR: Neorganicheskije Materialy 12, 1949–1950.
Kikineshi, A.A., Melnichenko, T.N. (1989) Parameters of free volume theory in the model of photoinduced changes in chalcogenide glasses, Proc. XV International Congress on Glass, Leningrad, 1B, pp.66–67.
Kikineshi, A.A., Shipljak, M.M. (1989) Structural relaxation and photostructural changes erasing in chalcogenide vitreous semiconductors (in Russian), Ukrainian J. of Physics 34, 30–34.
Bartenev, G.M. (1979) Structure and relaxation properties of elastomers (in Russian), Chimia, Moscow.
Sanditov, D.S., Bartenev, G.M. (1982) Physical properties of disordered structures (in Russian), Nauka, Novosibirsk.
Trunov, M.L. (1995) Structural relaxation and the phothermoplastic effect in amorphous semiconductors, J. Non-Cryst. Solids 192 & 193, 431–434.
Shipljak, M., Pinzenik, V., Makauz, I., Lendel, D., Chereshnya, V. Multilayer structures with operated parameters for xerography. (1994), Proc. International Workshop on Advanced Technologies of Multicomponent Solid Films and Structures, Uzhgorod, pp. 87–88.
Kikineshi, A.A., Fedak, V.V., Stefanovich, V.A. (1986) Peculiarities of holographic recording on the layers of amorphous selenium (in Russian), J. Scientific and Applied Photography and Cinematography 31, 433–437.
Kikineshi, A., Mishak, A., Sterr, A. (1993) Selenium based compositionally modulated recording materials for holography, Proc. SPIE 2108, pp.72–75.
Kikineshi, A., Marjan, M., Vlasov, V., Ripka, G. (1996) Optical interconnection elements investigation in chalcogenide glass layers for integrated circuits, ISHM/NATO Advanced Research Workshop and Exhibition on Microelectronic Interconnections and Microassembly, Prague (to be published by Kluwer ed.).
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Kikineshi, A., Mishak, A. (1997). Photoinduced Effects in Chalcogenide Glasses and Their Application for Optical Recording. In: Andriesh, A., Bertolotti, M. (eds) Physics and Applications of Non-Crystalline Semiconductors in Optoelectronics. NATO ASI Series, vol 36. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-5496-3_18
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DOI: https://doi.org/10.1007/978-94-011-5496-3_18
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