Observation of a Terrestrial Electron Beam during the tropical cyclone Joaninha in March 2019

David Sarria; Pavlo Kochkin; Nikolai Østgaard; Andrew Mezentsev; Nikolai G. Lehtinen; Martino Marisaldi; Carolina Maiorana; Torsten Neubert; Victor Reglero; Brant E. Carlson; Kjetil Ullaland; Shiming Yang; Georgi Genov; Bi Qureshi; Ca Budtz-Jørgensen; Ir Kuvvetli; Fr Christiansen; Ol Chanrion; Ja Navarro-Gonzales; Paul H. Connell

doi:https://doi.org/10.5194/egusphere-egu2020-3899

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EGU2020-3899

https://doi.org/10.5194/egusphere-egu2020-3899

EGU General Assembly 2020

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Observation of a Terrestrial Electron Beam during the tropical cyclone Joaninha in March 2019

David Sarria¹, Pavlo Kochkin¹, Nikolai Østgaard¹, Andrew Mezentsev¹, Nikolai G. Lehtinen¹, Martino Marisaldi¹, Carolina Maiorana¹, Torsten Neubert², Victor Reglero³, Brant E. Carlson^1,4, Kjetil Ullaland¹, Shiming Yang¹, Georgi Genov¹, Bi Qureshi¹, Ca Budtz-Jørgensen², Ir Kuvvetli², Fr Christiansen², Ol Chanrion², Ja Navarro-Gonzales³, and Paul H. Connell³

David Sarria et al.

¹University of Bergen, Birkeland Centre for Space Science, , Bergen, Norway (david.sarria.89@gmail.com)
²National Space Institute, Technical University of Denmark, Lyngby, Denmark
³University of Valencia, Valencia, Spain
⁴Carthage College, Kenosha, Wisconsin, United States

Terrestrial Gamma-ray Flashes (TGFs) are short (~20 us to ~2 ms) flashes of high energy (< 40 MeV) photons, produced by thunderstorms When interacting with the atmosphere, the TGF’s photons produce relativistic electrons and positrons at higher altitudes, and a fraction is able to escape the atmosphere [1,2,3]. The electrons/positrons are then bounded to Earth's magnetic field lines and can travel large distances inside the ionosphere and the magnetosphere. This phenomenon is called a Terrestrial Electron Beam (TEB).

The Atmosphere-Space Interactions Monitor (ASIM), dedicated to the study of TGF and associated events, started to operate in June 2018. ASIM contains an optical instrument (MMIA) made of micro-cameras and photometers, as well the Modular X and Gamma-ray Sensor (MXGS) for high energy radiation. MXGS is composed of the low energy detector (LED, 50 keV to 400 keV) and the High Energy detector (HED, 300 keV to 40 MeV).

This presentation is focused on a new event which was detected on March 24, 2019. The TEB originated from rainbands produced by the tropical cyclone Joaninha, in the Indian Ocean, close to Madagascar. This observation shows, for the first time to our knowledge: (1) the low energy part (>50 keV) of the TEB spectrum, using the LED, (2) an estimate of the incoming direction (to ISS) of the electron Beam from recorded data.

References:

[1] J. R., Dwyer, B. W., Grefenstette and D. M. Smith. High-energy electron beams launched into space by thunderstorms. DOI: 10.1029/2007GL032430. Geophysical Research Letters, 2008.

[2] B. E. Carlson T. Gjesteland N. Østgaard. Terrestrial gamma-ray flash electron beam geometry, fluence, and detection frequency. DOI: 10.1029/2011JA016812. Journal of Geophysical Research (Space Physics), 2011.

[3] D. Sarria, P. Kochkin, N. Østgaard et al. The First Terrestrial Electron Beam Observed by the Atmosphere-Space Interactions Monitor. DOI: 10.1029/2019JA027071. Journal of Geophysical Research (Space Physics), 2019.

How to cite: Sarria, D., Kochkin, P., Østgaard, N., Mezentsev, A., Lehtinen, N. G., Marisaldi, M., Maiorana, C., Neubert, T., Reglero, V., Carlson, B. E., Ullaland, K., Yang, S., Genov, G., Qureshi, B., Budtz-Jørgensen, C., Kuvvetli, I., Christiansen, F., Chanrion, O., Navarro-Gonzales, J., and Connell, P. H.: Observation of a Terrestrial Electron Beam during the tropical cyclone Joaninha in March 2019, EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-3899, https://doi.org/10.5194/egusphere-egu2020-3899, 2020.

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