Standard

Wave generation in a rare gas low-voltage beam discharge. / Matveev, Rustem ; Sukhomlinov, Vladimir ; Mustafaev, Alexander ; Timofeev, Nikolay .

In: Bulletin of the American Physical Society, Vol. 65, No. 10, RW2.00034, 2020.

Research output: Contribution to journalMeeting Abstract

Harvard

Matveev, R, Sukhomlinov, V, Mustafaev, A & Timofeev, N 2020, 'Wave generation in a rare gas low-voltage beam discharge', Bulletin of the American Physical Society, vol. 65, no. 10, RW2.00034.

APA

Matveev, R., Sukhomlinov, V., Mustafaev, A., & Timofeev, N. (2020). Wave generation in a rare gas low-voltage beam discharge. Bulletin of the American Physical Society, 65(10), [RW2.00034].

Vancouver

Matveev R, Sukhomlinov V, Mustafaev A, Timofeev N. Wave generation in a rare gas low-voltage beam discharge. Bulletin of the American Physical Society. 2020;65(10). RW2.00034.

Author

Matveev, Rustem ; Sukhomlinov, Vladimir ; Mustafaev, Alexander ; Timofeev, Nikolay . / Wave generation in a rare gas low-voltage beam discharge. In: Bulletin of the American Physical Society. 2020 ; Vol. 65, No. 10.

BibTeX

@article{039ad8567eb7422e99b6e81a3661742a,
title = "Wave generation in a rare gas low-voltage beam discharge",
abstract = "The work is devoted to the theoretical study of the instability of a low-voltage beam discharge (LVBD) in rare gases for the Knudsen numbers of the order of 1, when it is necessary to use the kinetic approach to describe the processes occurring in the LVBD. The discharge in He is used as an example. Based on the solution to the system of kinetic equations for the distribution functions of the beam and plasma electrons and the Poisson equation, the instability of the LVBD is studied analytically and numerically taking into account the attenuation of the electron beam due to electron - atom collisions when the electron mean free path is of the order of the inter-electrode distance. It was found that at the loss of stability in the conditions in question the amplification of several waves with different growth rates is possible, and the waves propagate at different speeds. With a linear decrease in the beam intensity, two waves are generated; named ``n'' and ``p''. The wave ``p'' having a smaller gain increment propagates at a higher speed. The indicated phenomenon is characteristic not only for the LVBD in rare gases, but for any system of a ``cold'' high-energy electron beam - plasma under conditions when it is necessary to take into account collisions between beam electrons and atoms.",
author = "Rustem Matveev and Vladimir Sukhomlinov and Alexander Mustafaev and Nikolay Timofeev",
year = "2020",
language = "English",
volume = "65",
journal = "Bulletin of the American Physical Society",
issn = "0003-0503",
publisher = "American Physical Society",
number = "10",
note = "null ; Conference date: 05-10-2020 Through 09-10-2020",

}

RIS

TY - JOUR

T1 - Wave generation in a rare gas low-voltage beam discharge

AU - Matveev, Rustem

AU - Sukhomlinov, Vladimir

AU - Mustafaev, Alexander

AU - Timofeev, Nikolay

PY - 2020

Y1 - 2020

N2 - The work is devoted to the theoretical study of the instability of a low-voltage beam discharge (LVBD) in rare gases for the Knudsen numbers of the order of 1, when it is necessary to use the kinetic approach to describe the processes occurring in the LVBD. The discharge in He is used as an example. Based on the solution to the system of kinetic equations for the distribution functions of the beam and plasma electrons and the Poisson equation, the instability of the LVBD is studied analytically and numerically taking into account the attenuation of the electron beam due to electron - atom collisions when the electron mean free path is of the order of the inter-electrode distance. It was found that at the loss of stability in the conditions in question the amplification of several waves with different growth rates is possible, and the waves propagate at different speeds. With a linear decrease in the beam intensity, two waves are generated; named ``n'' and ``p''. The wave ``p'' having a smaller gain increment propagates at a higher speed. The indicated phenomenon is characteristic not only for the LVBD in rare gases, but for any system of a ``cold'' high-energy electron beam - plasma under conditions when it is necessary to take into account collisions between beam electrons and atoms.

AB - The work is devoted to the theoretical study of the instability of a low-voltage beam discharge (LVBD) in rare gases for the Knudsen numbers of the order of 1, when it is necessary to use the kinetic approach to describe the processes occurring in the LVBD. The discharge in He is used as an example. Based on the solution to the system of kinetic equations for the distribution functions of the beam and plasma electrons and the Poisson equation, the instability of the LVBD is studied analytically and numerically taking into account the attenuation of the electron beam due to electron - atom collisions when the electron mean free path is of the order of the inter-electrode distance. It was found that at the loss of stability in the conditions in question the amplification of several waves with different growth rates is possible, and the waves propagate at different speeds. With a linear decrease in the beam intensity, two waves are generated; named ``n'' and ``p''. The wave ``p'' having a smaller gain increment propagates at a higher speed. The indicated phenomenon is characteristic not only for the LVBD in rare gases, but for any system of a ``cold'' high-energy electron beam - plasma under conditions when it is necessary to take into account collisions between beam electrons and atoms.

UR - https://meetings.aps.org/Meeting/GEC20/Session/RW2.34

UR - https://meetings.aps.org/Meeting/GEC20/Content/3891

M3 - Meeting Abstract

VL - 65

JO - Bulletin of the American Physical Society

JF - Bulletin of the American Physical Society

SN - 0003-0503

IS - 10

M1 - RW2.00034

Y2 - 5 October 2020 through 9 October 2020

ER -

ID: 92244643