How can slow plasma electron holes exist?

Author(s)

Hutchinson, Ian H.

Abstract

One-dimensional analysis is presented of solitary positive potential plasma structures whose velocity lies within the range of ion distribution velocities that are strongly populated: "slow" electron holes. It is shown that to avoid the self-acceleration of the hole velocity away from ion velocities it must lie within a local minimum in the ion velocity distribution. Quantitative criteria for the existence of stable equilibria are obtained. The background ion distributions required are generally stable to ion-ion modes unless the electron temperature is much higher than the ion temperature. Since slow positive potential solitons are shown not to be possible without a significant contribution from trapped electrons, it seems highly likely that such observed slow potential structures are indeed electron holes.

Description

Submitted for publication in Physical Review E

Date issued

2021-07

URI

https://hdl.handle.net/1721.1/158682

Department

Massachusetts Institute of Technology. Plasma Science and Fusion Center

Journal

Physical Review E

Publisher

APS

Other identifiers

21ja035