Japan Geoscience Union Meeting 2021

Presentation information

[E] Oral

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

[P-EM08] Space Weather and Space Climate

Fri. Jun 4, 2021 3:30 PM - 5:00 PM Ch.06 (Zoom Room 06)

convener:Ryuho Kataoka(National Institute of Polar Research), A Antti Pulkkinen(NASA Goddard Space Flight Center), Kanya Kusano(Institute for Space-Earth Environmental Research, Nagoya University), Kaori Sakaguchi(National Institute of Information and Communications Technology), Chairperson:Antti A Pulkkinen(NASA Goddard Space Flight Center), Ryuho Kataoka(National Institute of Polar Research)

4:00 PM - 4:15 PM

[PEM08-09] Energetic electron precipitation events as identified in the mesosphere during substorms

*Kiyoka Murase1, Ryuho Kataoka1,2, Takanori Nishiyama1,2, Koji Nishimura1,2,3, Taishi Hashimoto1,2, Yoshimasa Tanaka1,2,3, Akira Kadokura1,2,3, Yoshihiro Tomikawa1,2, Masaki Tsutsumi1,2, Herbert Akihito Uchida1, Kaoru Sato4, Satoshi Kasahara4, Takefumi Mitani5, Shoichiro Yokota6, Tomoaki Hori7, Kunihiro Keika4, Takeshi Takashima5, Yoshiya Kasahara8, Shoya Matsuda5, Masafumi Shoji7, Ayako Matsuoka9, Iku Shinohara5, Yoshizumi Miyoshi7, Tatsuhiko Sato10 (1.The Graduate University for Advanced Studies, 2.National Institute of Polar Research, 3.Polar Environment Data Science Center, 4.The University of Tokyo, 5.Institute of Space and Astronautical Science, 6.Osaka University, 7.Nagoya University, 8.Kanazawa University, 9.Kyoto University, 10.Japan Atomic Energy Agency)


Auroral activities have significant impacts on the polar atmosphere. One of the important aspects is the energy deposition to the neutral atmosphere by the precipitation of energetic electrons, which is known as a possible cause of the mesospheric ozone depletion. Energetic electron precipitation (EEP) will provide clues to the understanding of the links between the space and the atmospheric environment via energetic particles. We report EEP events during substorms, in which conjugate observations were conducted between Syowa Station in the Antarctic region and the Arase satellite in the magnetosphere. First, the mesospheric ionization reaching at 70 km altitude was identified during the growth phase. The mechanism of the growth phase EEP event was presumed to be the current sheet scattering because of the observed latitudinal energy dispersion of precipitating electrons, as identified from the all-sky imager and imaging riometer. During the expansion phase, the Arase satellite detected the increase of the loss-cone electron flux with the initiation of whistler mode waves. The estimated atmospheric ionization level due to the loss-cone electrons was consistent with the observed amplitude of the cosmic noise absorption. During the recovery phase, long-lasting enhanced activities of whistler mode waves were observed with the pulsating aurora. These results indicate that the current sheet scattering plays an essential role to cause EEP events during the growth phase, while the wave-particle interaction plays an essential role after the substorm onset.