Sophie Kadan, Xiao-Jia Zhang, Anton Artemyev, Yoshizumi Miyoshi, Ayako Matsuoka, Yoshiya Kasahara, Shoya Matsuda, Tomoaki Hori, Mariko Teramoto, Kazuhiro Yamamoto, Iku Shinohara
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引用次数: 0
Abstract
The latitudinal distribution of whistler-mode wave intensity plays a crucial
role in determining the efficiency and energy of electrons scattered by these
waves in the outer radiation belt. Traditionally, this wave property has mostly
been derived from statistical measurements of off-equatorial spacecraft, which
collect intensity data at various latitudes under different geomagnetic
conditions and at different times. In this study we examine a set of events
captured by both the near-equatorial THEMIS spacecraft and the off-equatorial
ERG spacecraft. Specifically, we compare the whistler-mode wave intensity from
THEMIS and ERG measurements at the same MLT and time sectors. Similar wave
spectrum characteristics confirm that THEMIS and ERG indeed observed the same
wave activity. However, upon closer examination of the wave intensity
variations, we identify two distinct categories of events: those that follow
the statistically predicted variations in wave intensity along magnetic
latitudes, and those that exhibit rapid wave intensity decay away from the
equatorial plane. We analyze main characteristics of events from both
categories and discuss possible implications of our analysis for radiation belt
models.
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