An empirical profile of VLF triggered emissions

The Siple Transmitter Experiment operated from 1973 to 1988 and generated a wealth of observations of nonlinear wave‐particle interactions including extensive recordings of triggered emissions generated by VLF signals injected into the magnetosphere from the transmitter at Siple Station, Antarctica....

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Bibliographic Details
Published in:Journal of geophysical research. Space physics 2015-08, Vol.120 (8), p.6581-6595
Main Authors: Li, J. D., Spasojevic, M., Inan, U. S.
Format: Article
Language:English
Subjects:
Computer simulation
Durability
ELF/VLF
Emission analysis
Emissions
Geophysics
Hooks
Magnetic fields
Magnetosphere
Magnetospheres
Median (statistics)
Numerical simulations
Particle interactions
Radiation
Radiation belts
Ramps
Risers
Simulation
Siple Station
Transmitters
triggered emissions
Very Low Frequencies
VLF
Wave-particle interactions
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Summary:The Siple Transmitter Experiment operated from 1973 to 1988 and generated a wealth of observations of nonlinear wave‐particle interactions including extensive recordings of triggered emissions generated by VLF signals injected into the magnetosphere from the transmitter at Siple Station, Antarctica. Due to their complex appearance and immensely varied behavior, triggered emissions remain poorly described and understood. This work provides a comprehensive statistical description of observed triggered emissions and establishes statistical bounds on triggered emission type (fallers, risers, and positive and negative hooks) and behavior (frequency changes between 1 kHz and 2.5 kHz with initial sweep rates between −2.5 kHz/s and 2.5 kHz/s, with risers undergoing a median frequency change of 556 Hz and fallers a median frequency change of −198 Hz). The statistical study also reveals an apparent dependence of the triggered emission behavior on the transmitted signal itself. Long tones and rising ramps generate more risers and positive hooks, while short tones and falling ramps produce more fallers and negative hooks. Triggered emissions also appear to favorably initiate with sweep rates similar to that of the triggering element, with the 1 kHz/s rising ramps triggering initial risers with a median sweep rate of 1.03 kHz/s and −1 kHz/s triggering initial fallers with a median sweep rate of −0.73 kHz/s. These results improve observations of wave modification resulting from wave‐particle interactions in the radiation belts and can be used to validate numerical simulations of triggered emissions. Key Points Risers undergo a larger net frequency change and can endure for a longer duration than fallers Triggering behavior at initiation depends on the transmitted element but later becomes independent The number of triggered emissions correlates with the total transmitted signal growth and with Kp
ISSN:2169-9380
2169-9402
DOI:10.1002/2015JA021444