VLF emission triggering by a highly anisotropic energetic electron plasma
VLF emission triggering by a highly anisotropic energetic electron plasma
A recent paper (Bell et al., 2000) reports observations from the POLAR spacecraft of highly anisotropic hot electron distribution functions in the equatorial region of the magnetosphere at L= 3.4. The particle instrument HYDRA measures electron fluxes from 1–20 keV. VLF emissions triggered by pulses from Omega (Norway) are found to coincide with "pancake" type electron distributions with average pitch angles >70 degrees, such distributions being effectively confined to the equatorial zone. We examine the linear and nonlinear wave particle interaction process between pancake distributions and continuous wave (CW) or narrow band ducted whistler mode signals. It is concluded that the pitch angle range of 67–76 degrees dominates the interaction process, and that with induct wave saturation amplitudes of 6 pT strong nonlinear trapping occurs for these particles. Using these data, a 1-D Vlasov Hybrid Simulation VLF code was run to simulate numerically risers triggered by a 1 s Omega pulse. The integrated linear trans-equatorial amplification of ~ 15 dB agrees well with figures calculated by Bell et al. (2000) from the HYDRA data. Fallers, hooks and oscillating tones have also been simulated.
Space plasma physics (numerical simulation studies, wave particle interactions) Solar physics, astrophysics and astronomy (radio emission)
481-492
Nunn, D
5115be8c-b699-427b-b7df-8795398381e5
Demekhov, A
2affa657-a4e6-4a05-88b5-ed8baee9bfc2
Trakhtengerts, V
de6ccde0-c0b9-420f-9f26-71c47ac74d64
Rycroft, M J
dc558e56-a7c5-444e-a4ea-b8613ae348f8
2003
Nunn, D
5115be8c-b699-427b-b7df-8795398381e5
Demekhov, A
2affa657-a4e6-4a05-88b5-ed8baee9bfc2
Trakhtengerts, V
de6ccde0-c0b9-420f-9f26-71c47ac74d64
Rycroft, M J
dc558e56-a7c5-444e-a4ea-b8613ae348f8
Nunn, D, Demekhov, A, Trakhtengerts, V and Rycroft, M J
(2003)
VLF emission triggering by a highly anisotropic energetic electron plasma.
Annales Geophysicae, 21 (2), .
Abstract
A recent paper (Bell et al., 2000) reports observations from the POLAR spacecraft of highly anisotropic hot electron distribution functions in the equatorial region of the magnetosphere at L= 3.4. The particle instrument HYDRA measures electron fluxes from 1–20 keV. VLF emissions triggered by pulses from Omega (Norway) are found to coincide with "pancake" type electron distributions with average pitch angles >70 degrees, such distributions being effectively confined to the equatorial zone. We examine the linear and nonlinear wave particle interaction process between pancake distributions and continuous wave (CW) or narrow band ducted whistler mode signals. It is concluded that the pitch angle range of 67–76 degrees dominates the interaction process, and that with induct wave saturation amplitudes of 6 pT strong nonlinear trapping occurs for these particles. Using these data, a 1-D Vlasov Hybrid Simulation VLF code was run to simulate numerically risers triggered by a 1 s Omega pulse. The integrated linear trans-equatorial amplification of ~ 15 dB agrees well with figures calculated by Bell et al. (2000) from the HYDRA data. Fallers, hooks and oscillating tones have also been simulated.
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Published date: 2003
Keywords:
Space plasma physics (numerical simulation studies, wave particle interactions) Solar physics, astrophysics and astronomy (radio emission)
Organisations:
Electronics & Computer Science
Identifiers
Local EPrints ID: 260376
URI: http://eprints.soton.ac.uk/id/eprint/260376
ISSN: 0992-7689
PURE UUID: 68a9a68c-1329-4e8f-aef8-fd69580f200f
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Date deposited: 26 Jan 2005
Last modified: 07 Jan 2022 21:13
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Contributors
Author:
D Nunn
Author:
A Demekhov
Author:
V Trakhtengerts
Author:
M J Rycroft
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