English

Constraints for the aperiodic O-mode streaming instability

Plasma Physics 2015-06-23 v2 Solar and Stellar Astrophysics

Abstract

In plasmas where the thermal energy density exceeds the magnetic energy density (β>1\beta_\parallel > 1), the aperiodic ordinary mode (O-mode) instability is driven by an excess of parallel temperature A=T/T<1A = T_\perp /T_\parallel < 1 (where \parallel and \perp denote directions relative to the uniform magnetic field). When stimulated by parallel plasma streams the instability conditions extend to low beta states, i.e., β<1\beta_\parallel <1, and recent studies have proven the existence of a new regime, where the anisotropy threshold decreases steeply with lowering β0\beta_\parallel \to 0 if the streaming velocity is sufficiently high. However, the occurrence of this instability is questionable especially in the low-beta plasmas, where the electrostatic two-stream instabilities are expected to develop much faster in the process of relaxation of the counterstreams. It is therefore proposed here to identify the instability conditions for the O-mode below those required for the onset of the electrostatic instability. An hierarchy of these two instabilities is established for both the low β<1\beta_\parallel <1 and large β>1\beta_\parallel > 1 plasmas. The conditions where the O-mode instability can operate efficiently are markedly constrained by the electrostatic instabilities especially in the low-beta plasmas.

Keywords

Cite

@article{arxiv.1411.1508,
  title  = {Constraints for the aperiodic O-mode streaming instability},
  author = {M. Lazar and R. Schlickeiser and S. Poedts and A. Stockem and S. Vafin},
  journal= {arXiv preprint arXiv:1411.1508},
  year   = {2015}
}

Comments

9 pages, 4 figures, Paper submitted to Physics of Plasmas (27-Oct-2014)

R2 v1 2026-06-22T06:49:39.368Z