Physical processes during ultracold plasma expansion

Using the method of molecular dynamics, the expansion of a two-component, pulsed laser-produced ultracold plasma is directly calculated for various values of the number and density of particles and their electron temperatures. A new method is presented for generating and diagnosing a steady-state ul...

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Veröffentlicht in:	Quantum electronics (Woodbury, N.Y.) N.Y.), 2022-06, Vol.52 (6), p.523-527
Hauptverfasser:	Zelener, B.B., Bronin, S.Ya, Vilshanskaya, E.V., Vikhrov, E.V., Galstyan, K.P., Morozov, N.V., Saakyan, S.A., Sautenkov, V.A., Zelener, B.V.
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Sprache:	eng
Schlagworte:	Continuous wave lasers Irradiation magneto-optical trap Mathematical analysis Molecular dynamics molecular dynamics method Pulsed lasers ultracold plasma
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container_title	Quantum electronics (Woodbury, N.Y.)
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creator	Zelener, B.B. Bronin, S.Ya Vilshanskaya, E.V. Vikhrov, E.V. Galstyan, K.P. Morozov, N.V. Saakyan, S.A. Sautenkov, V.A. Zelener, B.V.
description	Using the method of molecular dynamics, the expansion of a two-component, pulsed laser-produced ultracold plasma is directly calculated for various values of the number and density of particles and their electron temperatures. A new method is presented for generating and diagnosing a steady-state ultracold plasma formed under continuous wave laser irradiation. The performed calculations show the difference in the properties of an ultracold plasma obtained by pulsed and continuous wave laser irradiation.
doi_str_mv	10.1070/QEL18067
format	Article
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subjects	Continuous wave lasers Irradiation magneto-optical trap Mathematical analysis Molecular dynamics molecular dynamics method Pulsed lasers ultracold plasma
title	Physical processes during ultracold plasma expansion
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