Japan Geoscience Union Meeting 2024

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[E] Oral

P (Space and Planetary Sciences ) » P-EM Solar-Terrestrial Sciences, Space Electromagnetism & Space Environment

[P-EM15] Study of coupling processes in solar-terrestrial system

Wed. May 29, 2024 1:45 PM - 3:15 PM Exhibition Hall Special Setting (2) (Exhibition Hall 6, Makuhari Messe)

convener:Mamoru Yamamoto(Research Institute for Sustainable Humanosphere, Kyoto University), Yasunobu Ogawa(National Institute of Polar Research), Satonori Nozawa(Institute for Space-Earth Environmental Research, Nagoya University), Akimasa Yoshikawa(Department of Earth and Planetary Sciences, Kyushu University), Chairperson:Yasunobu Ogawa(National Institute of Polar Research), Akimasa Yoshikawa(Department of Earth and Planetary Sciences, Kyushu University)

2:00 PM - 2:15 PM

[PEM15-08] Statistical study of high energy electron precipitation based on Arase satellite - EISCAT collaborative observation data

*Yasunobu Ogawa1, Mizuki Fukizawa1, Yoshizumi Miyoshi2, Keisuke Hosokawa3, Shin-ichiro Oyama2, Kazuo Shiokawa2, Kanako Seki4, Satoshi Kurita5, Kazushi Asamura6, Satoshi Kasahara4, Takefumi Mitani6, Shoya Matsuda7, Yoshiya Kasahara7, Yuto Katoh8, Iku Shinohara6 (1.National Institute of Polar Research, 2.ISEE, Nagoya University, 3.The University of Electro-Communications, 4.University of Tokyo, 5.RISH, Kyoto University, 6.ISAS, Japan Aerospace Exploration Agency, 7.Kanazawa University, 8.Tohoku University)

Keywords:Ionosphere, EISCAT, ERG, Arase

We have conducted more than 150 collaborative observations (~600 hours in total) between the Arase (ERG) satellite and EISCAT radar since March 2017. The obtained collaborative observation data have been used to publish papers based on detailed data analysis on high-energy electron precipitation into the arctic ionosphere and molecular ion upflow from the arctic ionosphere. However, the overall characteristics of many collaborative events have not been systematically analyzed and summarized.
In this paper, we report statistical results of the relationship between wave and particle data observed by the Arase satellite and ionospheric electron density data obtained with the EISCAT Tromsø radar. Their results are summarized as follows:
(1) When the amplitude of the lower-band chorus (LBC) waves is above ~18 pT, magnetospheric electrons with energies above ~160 keV undergo pitch angle scattering, and become significantly ionized at altitudes between 65-100 km.
(2) The relationship between resonance energies of pitch angle scattering and electron density increases due to energetic electron precipitation suggests that pitch-angle scattering of energetic electrons by LBC waves propagating at higher latitudes (~20 deg) rather than in the magnetic equatorial plane occurs frequently.