EGU21-380
https://doi.org/10.5194/egusphere-egu21-380
EGU General Assembly 2021
© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Generation of two-band chorus waves in the Earth's outer radiation belt

Jinxing Li1, Jacob Bortnik1, Xin An1, Wen Li2, Vassilis Angelopoulos3, and Christopher Russell3
Jinxing Li et al.
  • 1University of California, Los Angeles, Atmospheric and Oceanic Sciences, United States of America (jinxing.li.87@gmail.com)
  • 2Boston University, Center for Space Physics, Boston University, Boston, Massachusetts, United States of America
  • 3Department of Earth, Space and Planetary Sciences, University of California, Los Angeles, California 90095, USA

Naturally occurring chorus emissions are a class of electromagnetic waves found in the space environments of the Earth and other magnetized planets. They play an essential role in accelerating high-energy electrons forming the hazardous radiation belt environment. Chorus typically occurs in two distinct frequency bands separated by a gap. The origin of this two-band structure remains a 50-year old question. Using measurements from NASA’s Van Allen Probes we report that banded chorus waves are commonly accompanied by two separate anisotropic electron components. We demonstrate, using numerical simulations, that the initially excited single-band chorus waves alter the electron distribution immediately via Landau resonance, and suppresses the electron anisotropy at medium energies. This naturally divides the electron anisotropy into a low and a high energy components which excite the upper-band and lower-band chorus waves, respectively. This mechanism may also apply to the generation of chorus waves in other magnetized planetary magnetospheres.

How to cite: Li, J., Bortnik, J., An, X., Li, W., Angelopoulos, V., and Russell, C.: Generation of two-band chorus waves in the Earth's outer radiation belt, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-380, https://doi.org/10.5194/egusphere-egu21-380, 2020.

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