Semiconductor Physics, Quantum Electronics & Optoelectronics. 2016. V. 19, N 1. P. 014-022.
DOI: https://doi.org/10.15407/spqeo19.01.014


References

1.    S.W. Kingman, N.A. Rowson, Microwave treatment of minerals – a review. Minerals Eng. 11(11) p. 1081-1087 (1998).
 
2.    T.L. Alford, D.C. Tompson, J.W. Mayer, N. David Theodore, Dopant activation in ion implanted silicon by microwave annealing. J. Appl. Phys. 106(11), p. P114902-01 – P114902-08 (2009).
 
3.    A.V. Kliuchnik, Influence intense of MW radiation on the structure of sea ice. Zhurnal tekhnicheskoi fiziki, 62(7), p. 99-107 (1992), in Russian.
 
4.    E.V. Vinnik, V.I. Guroshev, A.V. Prokhorovich, M.V. Shevelev, Application of powerful MW radiation for fast annealing of gallium arsenide. Optoelektronika i poluprovodnikovaia tekhnika, N 15, p. 48-50 (1989), in Russian.
 
5.    N.S. Averkin, A.A. Gutkin, V.E. Sedov, Photo-luminescence of CuGaTeAs and CuGaSnAs complexes in n-GaAs under resonance polarized excitation. Semiconductors, 35(2), p. 170-181 (2001).
 
6.    I.B. Ermolovich, G.V. Milenin, V.V. Milenin, R.V. Konakova, R.A. Red'ko, Modification of the defect structure in binary semiconductors under action of microwave radiation. Technical Physics, 52(9), p. 1173-1177 (2007).
 
7.    N.S. Zayats, R.V. Konakova, V.V. Milenin, G.V. Milenin, R.A. Red'ko, S.N. Red'ko, Microwave-radiation induced structural transfor-mations in homo- and heterogeneous GaAs-based systems. Technical Physics, 60(3), p. 432-436 (2015).
 
8.    I.B. Ermolovich, V.V. Milenin, R.V. Konakova, R.A. Red'ko, Influence of microwave irradiation on radiative recombination in A3B5 compounds. Fizika i khimiya obrabotki materialov, N 5, p. 12-18 (2006), in Russian.
 
9.    V.V. Milenin, R.A. Red'ko, S.N. Red'ko, Effect of microwave irradiation on radiative recombination in GaAs. Radioelectronics and communications systems, 8(9), p. 77-80 (2006).
 
10.    J. Friedel, Dislocations. Oxford-London-Edinburg-New York, 1964.
 
11.    E.F. Venger, M. Grendel, V. Danishka et al. / Ed. by Yu.A. Tkhorik, Structural Relaxation in Semiconductor Crystals and Device Structures. Publ. "Phenix", Kiev, 1994 (in Russian).
 
12.    E.G. Bagduev, M.Sh. Shikhsaidov, Influence of dislocations on optical and photoelectrical properties of gallium arsenide. Fizika tverd. tela, 30(1), p. 155-162 (1988), in Russian.
 
13.    V.F. Masterov, B.E. Samorukov, Deep centres in AIIIBV compounds (Review). Fizika i tekhnika poluprovodnikov, 12(4), p. 625-652 (1978), in Russian.
 
14.    G.V. Milenin, Analysis of random events in the physical and chemical processes flowing in materials of semiconductor products under external influences and thermal aging. Semiconductor Physics, Quantum Electronics & Optoelectronics, 18(3), p. 233-247 (2015).
 
15.    M.N. Levin, Yu.O. Lichmanov, V.M. Maslovskii, Changes in charge stability of MDS structures induced by pulse magnetic field. Pis'ma v zhurnal tekhnicheskoi fiziki, 20(4), p. 27-31 (1994), in Russian.
 
16.    R.A. Red'ko, R.V. Konakova, V.V. Milenin, V.V. Shvalagin, S.M. Red'ko, Yu.N. Sveshnikov, Long-term transformation of GaN/Al2O3 defect subsystem induced by weak magnetic fields. J. Luminescence, 153(9), p. 417-420 (2014).
 
17.    A.L. Buchachenko, Magnetoplasticity of diamag-netic crystals in microwave fields. Journal of Experimental and Theoretical Physics, 105(3), p. 593-598 (2007).
 
18.    K.I. Rybakov, V.E. Semenov, Possibility of plastic deformation of an ionic crystal due to the nonthermal influence of a high-frequency electric field. Phys. Rev. B, 49(1), p. 64-68 (1994).
 
19.    A.L. Buchachenko, Effect of magnetic field on mechanics of non-magnetic crystals: The nature of magnetoplasticity. Journal of Experimental and Theoretical Physics, 102(5), p. 795-798 (2006).
 
20.    M.B. Goldfarb, M.I. Molotskii, Electron interaction between donors and dislocation. Fizika i tekhnika poluprovodnikov, 24, p. 1330-1332 (1990), in Russian.
 
21.    T. Suzuki, X. Yoshinaga, S. Takeucti, Dislocations Dynamics and Plasticity. Springer-Verlag, 1985.
 
22.    H.F. Mataré, Defects Electronics in Semi-conductors. John Wilet & Sons Inc. 1971.
 
23.    Yu.I. Golovin, Magnetoplastic effect in solids (Review). Physics of the Solid State, 46(5), p. 789-824 (2004).
 
24.    http://www.ioffe.ru/SVA/NSM/Semicond/GaAs/basic.html.
 
25.    http://www.ioffe.ru/SVA/NSM/Semicond/GaAs/mechanic.html.
 
26.    O.V. Gritsunov, Excitation of electromagnetic oscillations with an arbitrary spectral composition by using short-circuited electron flows in systems with crossed fields. Author's abstract for Dr Thesis (Phys. & Math. Sci.), Kharkiv, 2006 (in Ukrainian).
 
27.    O.V. Betskii, K.I. Palatov, M.B. Tseitlin, Yu.D. Il'in, Side Oscillations in Electron MW Devices / Ed. by M.B. Tseitlin. Publ. House "Radio i Sviaz'", Moscow, 1984 (in Russian).
 
28.    H. Meinke, F.W. Gundlach, Radiotechnical Handbook, in 2 vol. Vol. 1. Publ. House "Gosenergoizdat", Moscow, Leningrad, 1961 (in Russian).
 
29.    N.W. Ashcroft, N.D. Mermin, Solid State Physics. Mir, Moscow, 1979 (in Russian).
 
30.    H. Kuchling, Handbook of Physics. Mir, Moscow, 1982 (in Russian).
 
31.    P.V. Pavlov, A.F. Khokhlov, Solid State Physics. Vysshaia shkola, Moscow, 2000 (in Russian).
 
32.    R.A. Smith, Semiconductors. Cambridge Univer-sity Press, Cambridge, New York, 1978.