Lower hybrid waves at the shock front: a reassessment

The primary process occurring at a collisionless shock is the redistribution of the bulk upstream energy into other degrees of freedom. One part of this process results in the acceleration of electrons at the shock front. Accelerated electrons are observed at the terrestrial and other planetary...

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Bibliographic Details
Main Authors: S. N. Walker, M. A. Balikhin, H. St. C. K. Alleyne, Y. Hobara, M. André, M. W. Dunlop
Format: Article
Language:English
Published: Copernicus Publications 2008-03-01
Series:Annales Geophysicae
Online Access:https://www.ann-geophys.net/26/699/2008/angeo-26-699-2008.pdf
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Summary:The primary process occurring at a collisionless shock is the redistribution of the bulk upstream energy into other degrees of freedom. One part of this process results in the acceleration of electrons at the shock front. Accelerated electrons are observed at the terrestrial and other planetary shocks, comets, and their effects are observed in astrophysical phenomena such as supernova remnants and jets in the form of X-ray bremsstrahlung radiation. One of the physical models for electron acceleration at supercritical shocks is based on low-hybrid turbulence due to the presence of reflected ions in the foot region. Since lower hybrid waves propagate almost perpendicular to the magnetic field they can be simultaneously in resonance with both the unmagnetised ions (&omega;=<I>V<sub>i</sub>k</I><sub>&#x22A5;</sub>) and magnetised electrons (&omega;=<I>V<sub>e</sub>k</I><sub>||</sub>). In this paper, Cluster observations of the electric field are used to study the occurrence of lower hybrid waves in the front of the terrestrial bow shock. It is shown that the lower hybrid waves exist as isolated wave packets. However, the very low level of the observed lower hybrid turbulence is too small to impart significant energisation to the electron population.
ISSN:0992-7689
1432-0576