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Abstract
We review the modulation stability of parallel-propagating/field-aligned whistler-mode chorus (WMC) waves propagating in a warm plasma from a formal perspective with a focus on wave–particle interactions via ponderomotive forces. The modulation instability criteria are characterised by the group velocity dispersion, dcg/dk, for whistler-mode waves and a condition on the ratio between the group velocity cg and the electron sound speed cs,e. We also demonstrate that in order to investigate the spatiotemporal evolution of the envelope and the formation of packets (according to this mechanism), one necessarily needs to account for the motion of ions within the system, leading to an ionic influence on the modulation instability threshold determined by the ion fraction of the plasma. Finally, we demonstrate that chirping may be captured when higher-order effects are included within the spatiotemporal evolution of the amplitude. This yields not only an explicit expression for the sweep rate but also identifies a possible origin for the power band gap that occurs at half the electron gyrofrequency. Numerical validation demonstrates that the interaction between wave packets is a source for the emergence of tones observed within mission data, and such interactions may be a major source of the electron energisation which WMC are responsible for.
Original language | English |
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Article number | 905890607 |
Number of pages | 34 |
Journal | Journal of Plasma Physics |
Volume | 89 |
Issue number | 6 |
DOIs | |
Publication status | Published - 12 Dec 2023 |
Bibliographical note
Funding:D.R. is grateful to the Isaac Newton Institute for Mathematical Sciences, Cambridge, for support and hospitality during the programme Dispersive Hydrodynamics where work on this paper was undertaken. This work was supported by EPSRC grant no. EP/R014604/1. O.A. gratefully acknowledges financial support from the University of Exeter, the University of Birmingham and also from the United Kingdom Research and Innovation (UKRI) Natural Environment Research Council (NERC) Independent Research Fellowship NE/V013963/1 and NE/V013963/2.
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The Importance of Nonlinear Physics in Radiation Belt Modelling
Allanson, O. (Principal Investigator)
Natural Environment Research Council
23/01/23 → 11/07/26
Project: Research Councils