2009
DOI: 10.1016/j.nima.2009.03.077
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Survey of collective instabilities and beam–plasma interactions in intense heavy ion beams

Abstract: This paper presents a survey of the present theoretical understanding based on advanced analytical and numerical studies of collective processes and beam-plasma interactions in intense heavy ion beams for applications to ion-beam-driven high energy density physics and heavy ion fusion. The topics include: discussion of the conditions for quiescent beam propagation over long distances; and the electrostatic Harris instability and the transverse electromagnetic Weibel instability in highly anisotropic, intense o… Show more

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Cited by 24 publications
(12 citation statements)
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“…It is important to note that apart from the heating produced inside the plasma source, significant additional electron heating may be provided by the ion beam pulse as a result of collective (beam-plasma) streaming instabilities. [26][27][28] Assuming, for simplicity, a scalar form of the electron pressure, p e ¼ n e T e , the radial component of the electron force balance equation [Eq. (3)] is given in the linear approximation, n b ( n e , by…”
Section: -4mentioning
confidence: 99%
“…It is important to note that apart from the heating produced inside the plasma source, significant additional electron heating may be provided by the ion beam pulse as a result of collective (beam-plasma) streaming instabilities. [26][27][28] Assuming, for simplicity, a scalar form of the electron pressure, p e ¼ n e T e , the radial component of the electron force balance equation [Eq. (3)] is given in the linear approximation, n b ( n e , by…”
Section: -4mentioning
confidence: 99%
“…The streaming of the ion beam relative to the background plasma can cause the development of fast electrostatic collective instabilities [3]. These instabilities produces fluctuating electrostatic fields that cause a significant drag on the background plasma electrons and can accelerate electrons up to the average ion beam velocity.…”
Section: Introduction and Theoretical Modelmentioning
confidence: 99%
“…For a thin, infinitely massive ion beam with r b p the beam current density is only partially neutralized, so that the remaining current density produces an azimuthal self-magnetic field that pinches the beam [1]. On the other hand the streaming of the moderately heavy ions relative to the background plasma can cause the development of fast electrostatic collective instabilities between beam ions and background electrons [2]. As demonstrated numerically in this paper using the particle-in-cell code LSP [3], the nonlinear stage of these instabilities produces fluctuating electrostatic fields which cause a significant drag on the background plasma electrons and result in producing local current densities which may significantly exceed the beam current density [4].…”
Section: Introductionmentioning
confidence: 99%