Coordinated observations of relativistic electron enhancements following the arrival of consecutive Corotating Interaction Regions

Afroditi Nasi; Ioannis A. Daglis; Christos Katsavrias; Ingmar Sandberg; Wen Li; Hayley Allison; Yoshizumi Miyoshi; Shun Imajo; Takefumi Mitani; Tomo Hori; Yuri Shprits; Satoshi Kasahara; Shoichiro Yokota; Kunihiro Keika; Iku Shinohara; Ayako Matsuoka; Yoshiya Kasahara

doi:https://doi.org/10.5194/egusphere-egu22-536

[Back] [Session ST2.8]

EGU22-536, updated on 26 Mar 2022

https://doi.org/10.5194/egusphere-egu22-536

EGU General Assembly 2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Coordinated observations of relativistic electron enhancements following the arrival of consecutive Corotating Interaction Regions

Afroditi Nasi¹, Ioannis A. Daglis^1,2, Christos Katsavrias¹, Ingmar Sandberg³, Wen Li⁴, Hayley Allison⁵, Yoshizumi Miyoshi⁶, Shun Imajo⁷, Takefumi Mitani⁸, Tomo Hori⁶, Yuri Shprits⁵, Satoshi Kasahara⁹, Shoichiro Yokota¹⁰, Kunihiro Keika⁹, Iku Shinohara⁸, Ayako Matsuoka⁷, and Yoshiya Kasahara¹¹

Afroditi Nasi et al.

¹National and Kapodistrian University of Athens, Physics Department, Athens, Greece (aphrodite.nasi@gmail.com)
²Hellenic Space Center, Athens, Greece
³Space Applications & Research Consultancy (SPARC), Greece
⁴Center for Space Physics, Boston University, Boston, MA, USA
⁵GFZ German Research Centre for Geosciences, Potsdam, Germany
⁶Institute for Space-Earth Environmental Research, Nagoya University, Nagoya, Japan
⁷Kyoto University, Kyoto, Japan
⁸Japan Aerospace Exploration Agency, Japan
⁹University of Tokyo, Tokyo, Japan
¹⁰Osaka University, Osaka, Japan
¹¹Kazanawa University, Kazanawa, Japan

During July-October of 2019, a sequence of Corotating Interaction Regions (V_SW ≥ 600 km/s) impacted the magnetosphere, for four consecutive solar rotations. Even though the series of CIRs resulted in relatively weak geomagnetic storms (SYM-H_min ≈ -60 nT, Kp_max ≈ 5), the net effect of the outer radiation belt during each disturbance was different, depending on the electron energy. During the August-September CIR, intense substorm activity was recorded (SML_min ≈ - 2000 nT), as well as significant enhancement of ultra-relativistic electrons.

We exploit coordinated and cross-calibrated particle measurements from the Van Allen Probes, Arase and Galileo 207, 215 satellites, to investigate the relative contribution of radial diffusion and gyro-resonant acceleration, using both electron fluxes and Phase Space Density (PSD) radial profiles, also compared with a 1D Fokker-Planck simulation.

Additionally, we use chorus wave amplitude and radial diffusion coefficient (D_LL) estimations, from the SafeSpace D_LL database, density measurements from the GFZ-Potsdam database, as well as solar wind and geomagnetic parameters, for a detailed investigation of these events.

This work has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 870437 for the SafeSpace project.

How to cite: Nasi, A., Daglis, I. A., Katsavrias, C., Sandberg, I., Li, W., Allison, H., Miyoshi, Y., Imajo, S., Mitani, T., Hori, T., Shprits, Y., Kasahara, S., Yokota, S., Keika, K., Shinohara, I., Matsuoka, A., and Kasahara, Y.: Coordinated observations of relativistic electron enhancements following the arrival of consecutive Corotating Interaction Regions, EGU General Assembly 2022, Vienna, Austria, 23–27 May 2022, EGU22-536, https://doi.org/10.5194/egusphere-egu22-536, 2022.

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