Suppression Effects Associated with VLF Transmitter Signals Injected into the Magnetosphere.

Magnetospheric growth of coherent VLF signals transmitted from Siple Station, Antarctica is inhibited by whistler mode echoes of earlier transmitter signals. This new phenomenon, called echo-induced suppression, is observed at least a third of the time that transmissions from Siple Station are detec...

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Bibliographic Details
Main Author: Raghuram,Rajagopalan
Other Authors: STANFORD UNIV CALIF STANFORD ELECTRONICS LABS
Format: Text
Language:English
Published: 1977
Subjects:
Geomagnetism
Plasma Physics and Magnetohydrodynamics
Solid State Physics
Radio Communications
*DUCTS
*SUPPRESSION
*MAGNETOSPHERE
*WHISTLERS
PITCH(INCLINATION)
INTERACTIONS
ELECTRON SCATTERING
TRANSMISSION LINES
ELECTROMAGNETIC RADIATION
HELIXES
VERY LOW FREQUENCY
HARMONIC GENERATORS
SUPERLOW FREQUENCY
HISS suppression
Plasmasphere
Bunching
Canada
Siple
Antarc*
Antarctica
Online Access:http://www.dtic.mil/docs/citations/ADA042245
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA042245
Description
Summary:Magnetospheric growth of coherent VLF signals transmitted from Siple Station, Antarctica is inhibited by whistler mode echoes of earlier transmitter signals. This new phenomenon, called echo-induced suppression, is observed at least a third of the time that transmissions from Siple Station are detected at the receiving station in Roberval, Quebec, Canada. Suppression levels as high as 20 dB are observed. Though the echo is usually much weaker than the direct signal the level of suppression is directly related to the amplitude of the echo. The echoes reduce triggering of emissions as well as the growth of the signal. Echo-induced suppression is not explained by linear wave-wave interference. The echoes are thought to restrict growth by reducing the coherence of the total input signal. According to quasi-linear theory, wave growth is regulated by changes in the particle pitch angle distribution that results from wave-particle interaction. These new results suggest that coherent waves tend to limit their own growth, even when modification of the particle pitch angle distribution is unimportant. Other phenomena such as whistler-induced suppression of signal growth are thought to be related to echo-induced suppression. Wave-induced growth suppression provides an indirect verification of the existence of discrete ducts for the propagation of VLF signals in the magnetosphere.

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