Problems of modeling the surface interference relaxed optical processes and phenomena
Keywords:
interference, Relaxed Optics, irreversible processes, fundamental absorption, Nonlinear Optics
Abstract
Problems of created and modeling of surface interference relaxed optical processes and phenomena are analyzed. Problem of nonlinear fundamental absorption and its role in the formation of surface irreversible interference pattern is discussed. Comparative analyses of dynamical (plasmic and thermal) and kinetic (physical-chemical) models is represented too.
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References
Trokhimchuck P.P. Relaxed Optics: Necessity of Creation and Problems of Development.// International Journal of Advanced Research in Physical Science, Vol. 2, Is. 3, 2015. – P.22-33.
Trokhimchuck P.P. Relaxed Optics: Reality and Perspectives (Review). // Advances in Applied Physics, vol. 3, No.4, 2015. – P. 325 – 341. (In Russian).
Medvid’ A. Nano-cones Formed on a Surface of Semiconductors by Laser Radiation: Technology Model and Properties. Nanowires Science and Technology, ed. Nicoletta Lupu. – Vukovar: Inech, 2010. – P. 61–82.
Makin V.S. Regularities of creation of ordering micro- and nanostructures in condensed matter for laser excitation of mode of surface polaritons. D. Sc.Thesis. – Saint-Petersburg: State University of Informative Technologies, Mechanics and Optics. – 384 p. (In Russian).
Birnbaum M. Semiconductor surface damage produced by Ruby Laser.// Journal of Applied Physics, vol. 36, Issue 11, 1965. – P. 3688–3689.
Sokolov I.A. Interference laser annealing of semiconductors. Ph.D. Thesis. – Lenigrad: A. Joffe Physical Technical Institute, 1983. – 140 p. (In Russian).
Shen Y.R. Principles of nonlinear optics. – Moscow: Nauka, 1989. – 559 p. (In Russian).
Landau L. D., Lifshits E. M. Electrodynamics of Condenced Matter. – Moscow: Nauka, 1982. = 621 c. (In Russian).
Trokhimchuck P. P. Foundation of Relaxed Optics. Lutsk: Vezha, 2006. – 294 p.; Foundations of Relaxed Optics. Lutsk: Vezha, 2011. – 627 p.
Philips J.C. Metastable honeycomb model of laser annealing.//Journal of Applied Physics, No.12, Vol. 52, 1981. – P.7397–7402.
Trokhimchuck P.P., Dmytruk I.P. Problem of coherence in modern theoretical physics. //Bulletin of Lesya Ukrayinka East European National University. Physics. No. 2(251), 2013. – P. 46-53.
Trokhimchuck P.P. Relaxed Optics: Reality and Perspectives (Review). // Advances in Applied Physics, vol. 3, No.4, 2015. – P. 325 – 341. (In Russian).
Medvid’ A. Nano-cones Formed on a Surface of Semiconductors by Laser Radiation: Technology Model and Properties. Nanowires Science and Technology, ed. Nicoletta Lupu. – Vukovar: Inech, 2010. – P. 61–82.
Makin V.S. Regularities of creation of ordering micro- and nanostructures in condensed matter for laser excitation of mode of surface polaritons. D. Sc.Thesis. – Saint-Petersburg: State University of Informative Technologies, Mechanics and Optics. – 384 p. (In Russian).
Birnbaum M. Semiconductor surface damage produced by Ruby Laser.// Journal of Applied Physics, vol. 36, Issue 11, 1965. – P. 3688–3689.
Sokolov I.A. Interference laser annealing of semiconductors. Ph.D. Thesis. – Lenigrad: A. Joffe Physical Technical Institute, 1983. – 140 p. (In Russian).
Shen Y.R. Principles of nonlinear optics. – Moscow: Nauka, 1989. – 559 p. (In Russian).
Landau L. D., Lifshits E. M. Electrodynamics of Condenced Matter. – Moscow: Nauka, 1982. = 621 c. (In Russian).
Trokhimchuck P. P. Foundation of Relaxed Optics. Lutsk: Vezha, 2006. – 294 p.; Foundations of Relaxed Optics. Lutsk: Vezha, 2011. – 627 p.
Philips J.C. Metastable honeycomb model of laser annealing.//Journal of Applied Physics, No.12, Vol. 52, 1981. – P.7397–7402.
Trokhimchuck P.P., Dmytruk I.P. Problem of coherence in modern theoretical physics. //Bulletin of Lesya Ukrayinka East European National University. Physics. No. 2(251), 2013. – P. 46-53.
Published
2016-12-28
How to Cite
Trokhimchuck, P. P., Berezyuk, H. I., & Penkovskiy, M. S. (2016). Problems of modeling the surface interference relaxed optical processes and phenomena. Journal of V. N. Karazin Kharkiv National University. Series Physics, (23), 43-48. Retrieved from https://periodicals.karazin.ua/physics/article/view/7773
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