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W4309859681 abstract "Abstract The whistler‐mode chorus emission, a major driver of radiation belt electron energization and precipitation, exhibits significant amplitude modulations on millisecond timescales. These subpacket modulations are accompanied by fast changes in the wave normal angle. Understanding the evolution of wave propagation properties inside chorus elements is essential for modeling nonlinear chorus‐electron interactions, but the origin of these rapid changes is unclear. We propose that the variations come from propagation inside thin, field‐aligned cold plasma enhancements (density ducts), which produce differing modulations in parallel and perpendicular wave magnetic field components. We show that a full‐wave simulation on a filamented density background predicts wave vector and amplitude evolution similar to Van Allen Probes spacecraft observations. We further demonstrate that the commonly assumed wide density ducts, in which wave propagation can be studied with ray tracing methods, cannot explain the observed behavior. This indirectly proves the existence of wavelength‐scale field‐aligned density fluctuations." @default.
W4309859681 created "2022-11-29" @default.
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W4309859681 date "2022-12-15" @default.
W4309859681 modified "2023-10-11" @default.
W4309859681 title "Effects of Field‐Aligned Cold Plasma Density Filaments on the Fine Structure of Chorus" @default.
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W4309859681 doi "https://doi.org/10.1029/2022gl101654" @default.
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