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Controlling the resistive hose instability in relativistic electron beams

Journal Article · · Physics of Plasmas
DOI:https://doi.org/10.1063/1.870989· OSTI ID:165796
; ; ;  [1]
  1. Naval Research Laboratory, Plasma Physics Division, Washington, D.C. 20375 (United States)
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The resistive hose instability has long been recognized as the major impediment to the propagation of intense, relativistic electrons beams in dense gas. However, hose is a convective instability, and therefore its growth is limited by the length of the beam pulse, the local growth rate, and the speed at which the instability convects through the pulse. The convective speed and the growth rate depend on the beam and plasma parameters, and these vary strongly from beam head to tail. In this paper, hose theory is reformulated to incorporate these variations, and the reformulated model is then used to compute the maximum hose growth possible in a given beam pulse. In air, the model predicts that hose grows by many orders of magnitude when the beam current is less than 10 kA or has a rise time more than a few nanoseconds long. But the growth is predicted to be less than a factor of 20 if the current is 50 kA or more, the rise time is subnanosecond, and the beam radius is properly tapered from head to tail. The model is supported by extensive numerical simulations and is in general agreement with available experimental data. Many of the issues discussed here may have application to other instabilities as well. {copyright} {ital 1995} {ital American} {ital Institute} {ital of} {ital Physics}.
OSTI ID:
165796
Journal Information:
Physics of Plasmas, Journal Name: Physics of Plasmas Journal Issue: 11 Vol. 2; ISSN 1070-664X; ISSN PHPAEN
Country of Publication:
United States
Language:
English

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Related Subjects

70 PLASMA PHYSICS AND FUSION TECHNOLOGY
BEAM-PLASMA SYSTEMS
ELECTRON BEAMS
HOSE INSTABILITY
INSTABILITY GROWTH RATES
PLASMA SIMULATION
RELATIVISTIC BEAM INJECTION