Semiconductor Physics, Quantum Electronics and Optoelectronics, 3 (2) P. 138-143 (2000).
References
1. G. Farkas, I. Kertesz, Z. Naray, P. Varga, On the laser-induced non-linear photoelectric effects in metals // Phys.Lett.,25A, pp. 572-573 (1967). https://doi.org/10.1016/0375-9601(67)90264-2
2. E.M. Logothetis, P.L. Hartman, Laser-induced electron emission from solids: many-photon photoelectric effects and thermionic emission // Phys. Rev., 184, pp. 460-474 (1969). https://doi.org/10.1103/PhysRev.187.460
4. G. Farkas, Z.Gy. Horvath, Multiphoton electron emission processes induced by different kinds of ultrashort laser pulses // Opt. Commun., 12, pp. 392-395 (1974). https://doi.org/10.1016/0030-4018(74)90128-X
5. S.D. Babenko, V.A. Benderskii, A.G. Krivenko, T.S. Rudenko, Polarisation properties of one- and two-photon photoeffect at metal-electrolyte interface // Fiz. Tverd. Tela, 16, pp. 1337-1341 (1974).
6. V. K. Kanonenko, Two-photon effect in metal-semiconductor structures // Zh. Tekh. Fiz, 49, pp. 2262-2265, (1979) (in Russian).
7. S.D. Babenko, V.A. Benderskii, T.S. Rudenko, Observation of high-probability two-photon photoemission from metals to electrolyte solutions // Letters to Zhurn. Eksp. Teor. Fiz., 17,pp. 71-74 (1973).
8. A. Merkys, S. Stonys, E. Širmulis, A simple current pulsed low-pressure CO2 laser with passive Q-switching // Optical and Quantum Electron., 20, pp. 373-376 (1988). https://doi.org/10.1007/BF00632464
9. H. Elab and W. Kosonocky, Theory and measurements of photoresponse for thin films Pd 2Si and PtSi infrared Schottky barrier detectors with optical cavity // RCA Review,43, pp.569-572 (1982).
10. M. Umeno, Y. Sugito, T. Jimbo, H. Hattori, Y. Amemiya, Hot photo-carrier and hot electron effects in junctions // Solid.St. Electron., 21, pp. 191-195 (1978). https://doi.org/10.1016/0038-1101(78)90137-5
11. S. Ašmontas and E.Širmulis, Heating of holes in silicon under CO2-laser excitation // Phys. Tekh. Poluprovodn., 20, pp.2212-2215 (1984) (in Russian).
12. F.V. Bunkin and A.M. Prokhorov, Some peculiarities of laser-mater interaction using short excitation pulses // Zhurn.Eksp. Teor. Fiz., 52, pp. 1610-1615 (1967) (in Russian).
13. A. Z. Grasiuk, I. G. Zubarev, A.B. Mironov, I. A. Poluektov, The features of the two-photon interband absorption spectra of the laser radiation in GaAs // Phys. Tekh. Poluprovod., 10,pp.262-270 (1976) (in Russian).
14. R. Baltramiejunas, V. Gavriusin, J. Vaitkus, The effect of impurities on the two-photon absorption in CdS monocrystals // Phys. Tverd. Tela, 18, pp.1150-1153 (1975) (in Russian).
15. D.P. Dvornikov, E. L. Ivchenko, V. V. Pershin, I. D. Jarosheckii, Effect of the transitions via deep impurity centers to the process of the nonlinear light absorption in semiconductors // Phys. Tekh. Poluprovod., 10, pp.2316-2319, 1976(in Russian).
16. I.V. Lebedev, Multiphoton ionisation of semiconductors with impurity states // Optika i Spektrosk., 33, pp. 1190-1191 (1972)(in Russian).
17. V.I. Strikha, E.V.Buzaneva, I.A.Radzievskii, Semiconductor devices based on Schottky contact,Sov. Radio, Moscow(1974).
18. S.I.Anisimov, N.A.Inogamov, Y.V.Petrov, Intensity dependence of a laser initiated emission current from a metal surface // Phys. Lett., 55A, pp. 449-450 (1976). https://doi.org/10.1016/0375-9601(76)90216-4