Simulation of the dynamics of resistive hose instability of a relativistic electron beam propagating in a resistive plasma channel with arbitrary conductivity

Research output

Abstract

The spatial dynamics of the resistive hose instability of a relativistic electron beam has been studied for the case when the charge neutralization time is much longer, on the order of, or much shorter than the current compensation time. It has been found that the growth of this instability has the highest increment when the charge neutralization time is on the order of skin time.

Original languageEnglish
Pages (from-to)1720-1723
Number of pages4
JournalTechnical Physics
Volume62
Issue number11
DOIs
Publication statusPublished - 1 Nov 2017

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hoses
relativistic electron beams
conductivity
simulation

Scopus subject areas

  • Physics and Astronomy (miscellaneous)

Cite this

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title = "Simulation of the dynamics of resistive hose instability of a relativistic electron beam propagating in a resistive plasma channel with arbitrary conductivity",
abstract = "The spatial dynamics of the resistive hose instability of a relativistic electron beam has been studied for the case when the charge neutralization time is much longer, on the order of, or much shorter than the current compensation time. It has been found that the growth of this instability has the highest increment when the charge neutralization time is on the order of skin time.",
author = "Kolesnikov, {E. K.} and Manuilov, {A. S.} and Petrov, {V. S.}",
year = "2017",
month = "11",
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language = "English",
volume = "62",
pages = "1720--1723",
journal = "Technical Physics",
issn = "1063-7842",
publisher = "Pleiades Publishing",
number = "11",

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AU - Manuilov, A. S.

AU - Petrov, V. S.

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AB - The spatial dynamics of the resistive hose instability of a relativistic electron beam has been studied for the case when the charge neutralization time is much longer, on the order of, or much shorter than the current compensation time. It has been found that the growth of this instability has the highest increment when the charge neutralization time is on the order of skin time.

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