V. A. Yurevich, “Resonance model of lasing self-pulsation”, PFMT, 2020, no. 4(45), 75

Problemy Fiziki, Matematiki i Tekhniki (Problems of Physics, Mathematics and Technics)

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Problemy Fiziki, Matematiki i Tekhniki (Problems of Physics, Mathematics and Technics), 2020, Issue 4(45), Pages 75–80 (Mi pfmt748)

PHYSICS

Resonance model of lasing self-pulsation

V. A. Yurevich

Mogilev State University of Food Technologies

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Abstract: The results of a qualitative analysis of a semiclassical model of radiation generation in solid-state lasers and, based on it, a numerical simulation of the regime of regular pulsations arising under conditions of nonlinear drift and broadening of the resonance gain line due to the influence of near fields of dipoles and absorption in quasi-resonant transitions on the dielectric susceptibility of an active medium are presented. Modeling was carried out for the parameters of semiconductor quantum-dimensional structures.

Keywords: lasing self-sustaining pulsations, nonlinear amplification, quasicrystal of quantum dots, dipole-dipole interaction.

Received: 25.06.2020

Document Type: Article

UDC: 535.34; 621.376

Language: Russian

Citation: V. A. Yurevich, “Resonance model of lasing self-pulsation”, PFMT, 2020, no. 4(45), 75–80

Citation in format AMSBIB

\Bibitem{Yur20}

\by V.~A.~Yurevich

\paper Resonance model of lasing self-pulsation

\jour PFMT

\yr 2020

\issue 4(45)

\pages 75--80

\mathnet{http://mi.mathnet.ru/pfmt748}

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https://www.mathnet.ru/eng/pfmt/y2020/i4/p75

Citing articles in Google Scholar: Russian citations, English citations
Related articles in Google Scholar: Russian articles, English articles

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Abstract page:	66
Full-text PDF :	34
References:	20

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