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Estimate of the Rate of Collisional-Radiative Recombination of Doubly Charged Ne++ Ions from the Results of a Spectroscopic Experiment. / Иванов, Владимир Александрович.

в: OPTICS AND SPECTROSCOPY, Том 132, № 4, 01.04.2024, стр. 371-377.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Иванов, ВА 2024, 'Estimate of the Rate of Collisional-Radiative Recombination of Doubly Charged Ne++ Ions from the Results of a Spectroscopic Experiment', OPTICS AND SPECTROSCOPY, Том. 132, № 4, стр. 371-377. https://doi.org/10.1134/s0030400x2404009x

APA

Иванов, В. А. (2024). Estimate of the Rate of Collisional-Radiative Recombination of Doubly Charged Ne++ Ions from the Results of a Spectroscopic Experiment. OPTICS AND SPECTROSCOPY, 132(4), 371-377. https://doi.org/10.1134/s0030400x2404009x

Vancouver

Иванов ВА. Estimate of the Rate of Collisional-Radiative Recombination of Doubly Charged Ne++ Ions from the Results of a Spectroscopic Experiment. OPTICS AND SPECTROSCOPY. 2024 Апр. 1;132(4):371-377. https://doi.org/10.1134/s0030400x2404009x

Author

Иванов, Владимир Александрович. / Estimate of the Rate of Collisional-Radiative Recombination of Doubly Charged Ne++ Ions from the Results of a Spectroscopic Experiment. в: OPTICS AND SPECTROSCOPY. 2024 ; Том 132, № 4. стр. 371-377.

BibTeX

@article{ea84f665fe1647669fd6436676e8e4a1,
title = "Estimate of the Rate of Collisional-Radiative Recombination of Doubly Charged Ne++ Ions from the Results of a Spectroscopic Experiment",
abstract = "—An experiment was set up to study the afterglow of an extended barrier discharge in low-pressure neon containing Ne+, Ne2+, and Ne++ ions by kinetic spectroscopy. Observation conditions: neon pressure ~0.8–1.7 Torr, electron density in the afterglow stage [e] ~ 1011 cm–3. In order to compare the rates of collisional-radiative recombination of Ne+ and Ne++ ions, the effect of pulsed “heating” of decaying plasma electrons by a weak high-frequency field on the intensities of atomic and ion lines was observed. The presented data show that in such a plasma, short-term suppression of recombination processes by electron heating leads to an increase in the brightness of spectral lines in the atomic and ion afterglow spectra, and the reaction of the lines of the latter turns out to be much stronger. Based on simple estimates, it is shown that this effect is due to the difference in the recombination rates of the Ne+ and Ne++ ions, and this difference turns out to be beyond the scope of theoretical concepts.",
keywords = "dielectric barrier discharge, doubly charged ions, collisional-radiative recombination, decaying plasma, elementary processes, collisional-radiative recombination, decaying plasma, dielectric barrier discharge, doubly charged ions, elementary processes",
author = "Иванов, {Владимир Александрович}",
year = "2024",
month = apr,
day = "1",
doi = "10.1134/s0030400x2404009x",
language = "English",
volume = "132",
pages = "371--377",
journal = "OPTICS AND SPECTROSCOPY",
issn = "0030-400X",
publisher = "Pleiades Publishing",
number = "4",

}

RIS

TY - JOUR

T1 - Estimate of the Rate of Collisional-Radiative Recombination of Doubly Charged Ne++ Ions from the Results of a Spectroscopic Experiment

AU - Иванов, Владимир Александрович

PY - 2024/4/1

Y1 - 2024/4/1

N2 - —An experiment was set up to study the afterglow of an extended barrier discharge in low-pressure neon containing Ne+, Ne2+, and Ne++ ions by kinetic spectroscopy. Observation conditions: neon pressure ~0.8–1.7 Torr, electron density in the afterglow stage [e] ~ 1011 cm–3. In order to compare the rates of collisional-radiative recombination of Ne+ and Ne++ ions, the effect of pulsed “heating” of decaying plasma electrons by a weak high-frequency field on the intensities of atomic and ion lines was observed. The presented data show that in such a plasma, short-term suppression of recombination processes by electron heating leads to an increase in the brightness of spectral lines in the atomic and ion afterglow spectra, and the reaction of the lines of the latter turns out to be much stronger. Based on simple estimates, it is shown that this effect is due to the difference in the recombination rates of the Ne+ and Ne++ ions, and this difference turns out to be beyond the scope of theoretical concepts.

AB - —An experiment was set up to study the afterglow of an extended barrier discharge in low-pressure neon containing Ne+, Ne2+, and Ne++ ions by kinetic spectroscopy. Observation conditions: neon pressure ~0.8–1.7 Torr, electron density in the afterglow stage [e] ~ 1011 cm–3. In order to compare the rates of collisional-radiative recombination of Ne+ and Ne++ ions, the effect of pulsed “heating” of decaying plasma electrons by a weak high-frequency field on the intensities of atomic and ion lines was observed. The presented data show that in such a plasma, short-term suppression of recombination processes by electron heating leads to an increase in the brightness of spectral lines in the atomic and ion afterglow spectra, and the reaction of the lines of the latter turns out to be much stronger. Based on simple estimates, it is shown that this effect is due to the difference in the recombination rates of the Ne+ and Ne++ ions, and this difference turns out to be beyond the scope of theoretical concepts.

KW - dielectric barrier discharge, doubly charged ions, collisional-radiative recombination, decaying plasma, elementary processes

KW - collisional-radiative recombination

KW - decaying plasma

KW - dielectric barrier discharge

KW - doubly charged ions

KW - elementary processes

UR - https://www.mendeley.com/catalogue/737ccbc6-06ca-3ccb-9fbf-99cab3836309/

U2 - 10.1134/s0030400x2404009x

DO - 10.1134/s0030400x2404009x

M3 - Article

VL - 132

SP - 371

EP - 377

JO - OPTICS AND SPECTROSCOPY

JF - OPTICS AND SPECTROSCOPY

SN - 0030-400X

IS - 4

ER -

ID: 126919359