2-D Numerical Modeling of Gas Temperature in Large-Volume Sr Laser Excited in Nanosecond Pulsed Longitudinal SrBr} Discharge

An active volume scaling in bore and length of a Sr atom laser excited in a nanosecond pulse longitudinal He-SrBr 2 discharge is carried out. Considering axial symmetry and uniform power input, 2-D model (r, z) is developed by numerical methods for determination of gas temperature in nanosecond puls...

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Veröffentlicht in:	IEEE transactions on plasma science 2013-10, Vol.41 (10), p.3043-3047
Hauptverfasser:	Chernogorova, Tatiana P., Temelkov, Krassimir A., Koleva, Nina K., Vuchkov, Nikolay K.
Format:	Artikel
Sprache:	eng
Schlagworte:	Atoms & subatomic particles Discharges (electric) Electron tubes Electrostatic discharges gas discharge Gas lasers gas temperature Heat conduction Laser excitation Laser modes numerical modeling Numerical models Plasma physics Plasma temperature Power supply Temperature effects
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creator	Chernogorova, Tatiana P. Temelkov, Krassimir A. Koleva, Nina K. Vuchkov, Nikolay K.
description	An active volume scaling in bore and length of a Sr atom laser excited in a nanosecond pulse longitudinal He-SrBr 2 discharge is carried out. Considering axial symmetry and uniform power input, 2-D model (r, z) is developed by numerical methods for determination of gas temperature in nanosecond pulsed longitudinal He-Ne-SrBr 2 discharge to find out the optimal temperature regime for achieving of a maximal multiline average output power.
doi_str_mv	10.1109/TPS.2013.2278711
format	Article
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subjects	Atoms & subatomic particles Discharges (electric) Electron tubes Electrostatic discharges gas discharge Gas lasers gas temperature Heat conduction Laser excitation Laser modes numerical modeling Numerical models Plasma physics Plasma temperature Power supply Temperature effects
title	2-D Numerical Modeling of Gas Temperature in Large-Volume Sr Laser Excited in Nanosecond Pulsed Longitudinal SrBr} Discharge
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