Laser-induced slow wave of reflection and conduction change in solids: experimental and theoretical study of the solitonic mechanism

Eugene M. Kudriavtsev; Emma N. Lotkova; Sergey D. Zotov; Michel L. Autric; Vladimir I. Emel'yanov

doi:10.1117/12.342341

15 March 1999 Laser-induced slow wave of reflection and conduction change in solids: experimental and theoretical study of the solitonic mechanism

Eugene M. Kudriavtsev, Emma N. Lotkova, Sergey D. Zotov, Michel L. Autric, Vladimir I. Emel'yanov

Author Affiliations +

Proceedings Volume 3734, ICONO '98: Fundamental Aspects of Laser-Matter Interaction and New Nonlinear Optical Materials and Physics of Low-Dimensional Structures; (1999) https://doi.org/10.1117/12.342341
Event: ICONO '98: Laser Spectroscopy and Optical Diagnostics: Novel Trends and Applications in Laser Chemistry, Biophysics, and Biomedicine, 1998, Moscow, Russian Federation

Abstract

Solitonic propagation of IR laser pulse-induced wave of reflection and conduction change is investigated experimentally and theoretically. The temperature dependence of the wave velocity in Ge and high temperature superconductive ceramics is shown to be semiquantitatively described by the theory of slow defect recombination wave.

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Eugene M. Kudriavtsev, Emma N. Lotkova, Sergey D. Zotov, Michel L. Autric, and Vladimir I. Emel'yanov "Laser-induced slow wave of reflection and conduction change in solids: experimental and theoretical study of the solitonic mechanism", Proc. SPIE 3734, ICONO '98: Fundamental Aspects of Laser-Matter Interaction and New Nonlinear Optical Materials and Physics of Low-Dimensional Structures, (15 March 1999); https://doi.org/10.1117/12.342341

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