Whistler-triggered emissions observed by ISIS satellites
- Communications Research lab., Tokyo (Japan)
VLF emissions triggered by whistlers are often observed at middle and high latitudes in the topside ionosphere by ISIS satellites. Most of them are so-called LHR emissions lasting for a few seconds. Latitudinal distributions of the occurrence rate for the whistler-triggered emissions in the topside ionosphere have been obtained by using VLF electric field data received from the ISIS 1 and 2 satellites at Kashima station, Communications Research Laboratory, Japan. These VLF emissions are classified into two groups according to the type of whistlers, i.e., ducted whistlers with a continuous trace over the full frequency range of the spectrum and nonducted whistlers without a complete trace below f{sub LHR}. The latitudinal distribution of the occurrence rate for emissions triggered by ducted whistlers is considerably different from that for emissions triggered by nonducted whistlers, especially at high latitudes. The occurrence rate for the emissions by nonducted whistlers is distributed rather randomly in latitude between L = 2.0 and L = 4.2. The occurrence rate for emissions by ducted whistlers increases with latitudes between L = 1.5 and L = 2.9, and it attains a maximum of 0.33 at L = 2.7. It then abruptly drops to 0.1 at L = 3.0, and it remains below 0.1 between L = 3.0 and L = 4.0. The decrease of the occurrence rate for emissions by ducted whistlers at L = 3.0 seems to be caused by the decrease of the radiation belt electron flux near the slot region. These results suggest that the VLF emissions triggered by ducted whistlers in the topside ionosphere are generated by the cyclotron resonant interaction of ducted whistlers with the magnetospheric electrons near the geomagnetic equatorial plane.
- OSTI ID:
- 5941170
- Journal Information:
- Journal of Geophysical Research; (United States), Vol. 94:A1; ISSN 0148-0227
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
GENERAL PHYSICS
IONOSPHERE
RADIO NOISE
CLASSIFICATION
EARTH MAGNETOSPHERE
ELECTRIC FIELDS
ELECTRON PRECIPITATION
EMISSION
GEOMAGNETIC EQUATOR
INTERACTIONS
LATITUDE EFFECT
SATELLITES
WHISTLERS
CHARGED-PARTICLE PRECIPITATION
EARTH ATMOSPHERE
ELECTROMAGNETIC RADIATION
GEOGRAPHICAL VARIATIONS
NOISE
PLANETARY IONOSPHERES
RADIATIONS
RADIOWAVE RADIATION
VARIATIONS
661320* - Auroral
Ionospheric
& Magnetospheric Phenomena- (1992-)