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Influence of the magnetic field of the current passing through the anode on a glow discharge in a coaxial system

To study the influence of the magnetic field on the normal low-pressure glow discharge, an electrode coaxial system with a meshy tubular cathode and an internal anode was used. A current was passed through the anode to obtain the azimuthal magnetic field crossed with electric field. Oscillography of...

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Main Authors:	Melnichenko, M.S., Sydorenko, S.B., Kuzmichev, A.I., Maikut, S.O.
Format:	Article
Language:	English
Published:	Національний науковий центр «Харківський фізико-технічний інститут» НАН України 2022
Series:	Problems of Atomic Science and Technology
Subjects:	Low temperature plasma and plasma technologies
Online Access:	http://dspace.nbuv.gov.ua/handle/123456789/195897
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id	irk-123456789-195897
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spelling	irk-123456789-1958972023-12-08T12:58:10Z Influence of the magnetic field of the current passing through the anode on a glow discharge in a coaxial system Melnichenko, M.S. Sydorenko, S.B. Kuzmichev, A.I. Maikut, S.O. Low temperature plasma and plasma technologies To study the influence of the magnetic field on the normal low-pressure glow discharge, an electrode coaxial system with a meshy tubular cathode and an internal anode was used. A current was passed through the anode to obtain the azimuthal magnetic field crossed with electric field. Oscillography of the signals from the electric probe and photodiode, together with video recording, made it possible to establish the movement of the discharge luminous region along the electrodes. When AC current with a frequency of 50 Hz was passed through the anode, the discharge movement was oscillatory – from one end of the system to another. Для дослідження впливу магнітного поля на нормальний тліючий розряд низького тиску використовували коаксіальну систему електродів із сітчастим трубчастим катодом і внутрішнім анодом, через який пропускали струм для отримання азимутального магнітного поля, схрещеного з електричним. Осцилографування сигналів з електричного зонда і фотодіода спільно з відеозйомкою дозволило встановити рух області розрядної зони, що світиться, вздовж електродів. При пропусканні змінного струму частотою 50 Гц через анод рух розряду був коливальним – від одного торця системи до іншого. 2022 Article Influence of the magnetic field of the current passing through the anode on a glow discharge in a coaxial system / M.S. Melnichenko, S.B. Sydorenko, A.I. Kuzmichev, S.O. Maikut // Problems of Atomic Science and Technology. — 2022. — № 6. — С. 107-110. — Бібліогр.: 4 назв. — англ. 1562-6016 PACS: 52.77.–j DOI: https://doi.org/10.46813/2022-142-107 http://dspace.nbuv.gov.ua/handle/123456789/195897 en Problems of Atomic Science and Technology Національний науковий центр «Харківський фізико-технічний інститут» НАН України
institution	Digital Library of Periodicals of National Academy of Sciences of Ukraine
collection	DSpace DC
language	English
topic	Low temperature plasma and plasma technologies Low temperature plasma and plasma technologies
spellingShingle	Low temperature plasma and plasma technologies Low temperature plasma and plasma technologies Melnichenko, M.S. Sydorenko, S.B. Kuzmichev, A.I. Maikut, S.O. Influence of the magnetic field of the current passing through the anode on a glow discharge in a coaxial system Problems of Atomic Science and Technology
description	To study the influence of the magnetic field on the normal low-pressure glow discharge, an electrode coaxial system with a meshy tubular cathode and an internal anode was used. A current was passed through the anode to obtain the azimuthal magnetic field crossed with electric field. Oscillography of the signals from the electric probe and photodiode, together with video recording, made it possible to establish the movement of the discharge luminous region along the electrodes. When AC current with a frequency of 50 Hz was passed through the anode, the discharge movement was oscillatory – from one end of the system to another.
format	Article
author	Melnichenko, M.S. Sydorenko, S.B. Kuzmichev, A.I. Maikut, S.O.
author_facet	Melnichenko, M.S. Sydorenko, S.B. Kuzmichev, A.I. Maikut, S.O.
author_sort	Melnichenko, M.S.
title	Influence of the magnetic field of the current passing through the anode on a glow discharge in a coaxial system
title_short	Influence of the magnetic field of the current passing through the anode on a glow discharge in a coaxial system
title_full	Influence of the magnetic field of the current passing through the anode on a glow discharge in a coaxial system
title_fullStr	Influence of the magnetic field of the current passing through the anode on a glow discharge in a coaxial system
title_full_unstemmed	Influence of the magnetic field of the current passing through the anode on a glow discharge in a coaxial system
title_sort	influence of the magnetic field of the current passing through the anode on a glow discharge in a coaxial system
publisher	Національний науковий центр «Харківський фізико-технічний інститут» НАН України
publishDate	2022
topic_facet	Low temperature plasma and plasma technologies
url	http://dspace.nbuv.gov.ua/handle/123456789/195897
citation_txt	Influence of the magnetic field of the current passing through the anode on a glow discharge in a coaxial system / M.S. Melnichenko, S.B. Sydorenko, A.I. Kuzmichev, S.O. Maikut // Problems of Atomic Science and Technology. — 2022. — № 6. — С. 107-110. — Бібліогр.: 4 назв. — англ.
series	Problems of Atomic Science and Technology
work_keys_str_mv	AT melnichenkoms influenceofthemagneticfieldofthecurrentpassingthroughtheanodeonaglowdischargeinacoaxialsystem AT sydorenkosb influenceofthemagneticfieldofthecurrentpassingthroughtheanodeonaglowdischargeinacoaxialsystem AT kuzmichevai influenceofthemagneticfieldofthecurrentpassingthroughtheanodeonaglowdischargeinacoaxialsystem AT maikutso influenceofthemagneticfieldofthecurrentpassingthroughtheanodeonaglowdischargeinacoaxialsystem
first_indexed	2024-03-31T09:17:49Z
last_indexed	2024-03-31T09:17:49Z
_version_	1796158104937693184

Influence of the magnetic field of the current passing through the anode on a glow discharge in a coaxial system

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