A parametric study of the numerical simulations of triggered VLF emissions
A parametric study of the numerical simulations of triggered VLF emissions
This work is concerned with the numerical modelling of VLF emissions triggered in the equatorial region of the Earth’s magnetosphere, using a well established 1D Vlasov Hybrid Simulation (VHS) code. Although this code reproduces observed ground based emissions well there is some uncertainty regarding the magnitude of simulation parameters such as saturation wave amplitude, cold plasma density, linear growth rate and simulation bandwidth. Concentrating on emissions triggered by pulses of VLF radio waves from the transmitter at Siple Station, Antarctica (L=4.2), these parameters, as well as triggering pulse length and amplitude, are systematically varied. This parametric study leads to an understanding of the physics of the triggering process and also of how the properties of these emissions, particularly their frequency time profile, depend upon these parameters. The main results are that weak power input tends to generate fallers, intermediate power input gives stable risers and strong growth rates give fallers, hooks or oscillating tones. The main factor determining the frequency sweep rate - of either sign - turns out to be the cold plasma density, lower densities giving larger sweep rates.
Triggered VLF emissions, cyclotron resonance, wave particle interactions
1-12
Nunn, David
5115be8c-b699-427b-b7df-8795398381e5
Rycroft, Michael
e1ae404a-7f0c-4435-8ee3-c7bccc944e7c
Trakhtengerts, Victor
f40e54b0-3149-42ac-8f61-4c80f678563e
2005
Nunn, David
5115be8c-b699-427b-b7df-8795398381e5
Rycroft, Michael
e1ae404a-7f0c-4435-8ee3-c7bccc944e7c
Trakhtengerts, Victor
f40e54b0-3149-42ac-8f61-4c80f678563e
Nunn, David, Rycroft, Michael and Trakhtengerts, Victor
(2005)
A parametric study of the numerical simulations of triggered VLF emissions.
Annales Geophysicae, 23, .
(doi:10.5194/angeo-23-3655-2005).
Abstract
This work is concerned with the numerical modelling of VLF emissions triggered in the equatorial region of the Earth’s magnetosphere, using a well established 1D Vlasov Hybrid Simulation (VHS) code. Although this code reproduces observed ground based emissions well there is some uncertainty regarding the magnitude of simulation parameters such as saturation wave amplitude, cold plasma density, linear growth rate and simulation bandwidth. Concentrating on emissions triggered by pulses of VLF radio waves from the transmitter at Siple Station, Antarctica (L=4.2), these parameters, as well as triggering pulse length and amplitude, are systematically varied. This parametric study leads to an understanding of the physics of the triggering process and also of how the properties of these emissions, particularly their frequency time profile, depend upon these parameters. The main results are that weak power input tends to generate fallers, intermediate power input gives stable risers and strong growth rates give fallers, hooks or oscillating tones. The main factor determining the frequency sweep rate - of either sign - turns out to be the cold plasma density, lower densities giving larger sweep rates.
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angeo-23-3655-2005
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Published date: 2005
Keywords:
Triggered VLF emissions, cyclotron resonance, wave particle interactions
Organisations:
Electronics & Computer Science
Identifiers
Local EPrints ID: 262149
URI: http://eprints.soton.ac.uk/id/eprint/262149
ISSN: 0992-7689
PURE UUID: bfe48dfe-187c-49bd-b369-bf1971b91092
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Date deposited: 27 Mar 2006
Last modified: 14 Mar 2024 07:06
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Author:
David Nunn
Author:
Michael Rycroft
Author:
Victor Trakhtengerts
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