A. A. Ionin, A. Yu. Kozlov, I. V. Kochetov, A. K. Kurnosov, O. A. Rulev, D. V. Sinitsyn, “Determining by luminescence dynamics the relaxation rate constant of CO molecule’s first vibrational level on water vapor in the afterglow of a pulsed e-beam sustained discharge”, Kvantovaya Elektronika, 54:4 (2024), 224–230 [Bull. Lebedev Physics Institute, 51:suppl. 7 (2024), S533

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Kvantovaya Elektronika, 2024, Volume 54, Number 4, Pages 224–230 (Mi qe18418)

Lasers

Determining by luminescence dynamics the relaxation rate constant of CO molecule’s first vibrational level on water vapor in the afterglow of a pulsed e-beam sustained discharge

A. A. Ionin^a, A. Yu. Kozlov^a, I. V. Kochetov^ab, A. K. Kurnosov^ab, O. A. Rulev^a, D. V. Sinitsyn^a

^a Lebedev Physical Institute of the Russian Academy of Sciences, Moscow, Russia
^b Troitsk Institute for Innovation and Fusion Research (State Research Center of Russian Federation), Troitsk, Russia

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Abstract: The luminescence dynamics of vibrationally excited CO molecules upon excitation of a gas mixture containing carbon monoxide in a pulsed electroionization discharge has been experimentally measured. A numerical model of vibrational level kinetics was used to analyze the experimentally measured luminescence signals of vibrationally excited molecules and to determine the relaxation rate constant of the first vibrational level of CO molecules during their collisions with water molecules at Т = 300 K.

Keywords: CO laser, e-beam sustaied discharge, luminescence dynamics of CO molecules, vibrational kinetics model, CO relaxation rate constant on water molecules.

Received: 11.07.2024

English version:
Bull. Lebedev Physics Institute, 2024, Volume 51, Issue suppl. 7, Pages S533–S542
DOI: https://doi.org/10.3103/S1068335624601778

Document Type: Article

Language: Russian

Citation: A. A. Ionin, A. Yu. Kozlov, I. V. Kochetov, A. K. Kurnosov, O. A. Rulev, D. V. Sinitsyn, “Determining by luminescence dynamics the relaxation rate constant of CO molecule’s first vibrational level on water vapor in the afterglow of a pulsed e-beam sustained discharge”, Kvantovaya Elektronika, 54:4 (2024), 224–230 [Bull. Lebedev Physics Institute, 51:suppl. 7 (2024), S533–S542]

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