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Effect of Temporal Current Modulation on the Tracking Force Acting on a Relativistic Electron Beam in an Ohmic Plasma Channel

The effect of the current rise time in a relativistic electron beam pulse on the tracking force exerted by the low-conductivity Ohmic plasma channel on the beam has been analyzed using the “hard” beam model. It is shown using numerical analysis that an increase in the beam current rise time substant...

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Published in:	Technical physics 2018-07, Vol.63 (7), p.1067-1069
Main Authors:	Kolesnikov, E. K., Manuilov, A. S., Petrov, V. S.
Format:	Article
Language:	English
Subjects:	70 PLASMA PHYSICS AND FUSION TECHNOLOGY Analysis BEAM CURRENTS BEAM PULSERS Classical and Continuum Physics Current modulation Electric properties Electron and Ion Beams ELECTRON BEAMS Electrophysics Mathematical models MODULATION NUMERICAL ANALYSIS Physics Physics and Astronomy Physics of Accelerators PLASMA PULSE RISE TIME Relativism Relativistic effects Relativistic electron beams RELATIVISTIC RANGE Tracking
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container_end_page	1069
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creator	Kolesnikov, E. K. Manuilov, A. S. Petrov, V. S.
description	The effect of the current rise time in a relativistic electron beam pulse on the tracking force exerted by the low-conductivity Ohmic plasma channel on the beam has been analyzed using the “hard” beam model. It is shown using numerical analysis that an increase in the beam current rise time substantially reduces the tracking force considered here.
doi_str_mv	10.1134/S1063784218070186
format	article
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subjects	70 PLASMA PHYSICS AND FUSION TECHNOLOGY Analysis BEAM CURRENTS BEAM PULSERS Classical and Continuum Physics Current modulation Electric properties Electron and Ion Beams ELECTRON BEAMS Electrophysics Mathematical models MODULATION NUMERICAL ANALYSIS Physics Physics and Astronomy Physics of Accelerators PLASMA PULSE RISE TIME Relativism Relativistic effects Relativistic electron beams RELATIVISTIC RANGE Tracking
title	Effect of Temporal Current Modulation on the Tracking Force Acting on a Relativistic Electron Beam in an Ohmic Plasma Channel
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