Monitoring the Radiation State of the Near-Earth Space on the Arktika-M No. 1 Satellite

Author:

Osedlo V. I.,Kalegaev V. V.,Rubinshtein I. A.,Tulupov V. I.,Shemukhin A. A.,Pavlov N. N.,Abanin O. I.,Zolotarev I. A.,Barinova V. O.,Bogomolov V. V.,Vlasova N. A.,Myagkova I. N.,Ginzburg E. A.

Abstract

Abstract— The first results of monitoring the radiation state of the near-Earth space on the Arktika-M no. 1 spacecraft in a high-apogee Molniya orbit are considered. The characteristics of the devices of the heliogeophysical instrumentation complex GGAK-HE are presented. The results of the comparative analysis of experimental and model distributions of energetic particle fluxes of the Earth’s radiation belts in the orbit of the Arktika-M no. 1, as well as of some features of the dynamics of the outer electron radiation belt in 2021 and 2022 and the solar proton event of October 28, 2021, based on the experimental data from Arktika-M no. 1, Meteor-M no. 2, and Elektro-L no. 2 spacecraft are presented.

Publisher

Pleiades Publishing Ltd

Subject

Space and Planetary Science,Astronomy and Astrophysics,Aerospace Engineering

Reference30 articles.

1. Krupnikov, K.K., Mar’in, B.V., Mileev, V.N., et al., Analysis of the effects of electrization of the geostationary satellites Gorizont and Elektro from the data of onboard spectrometers of hot magnetospheric plasma, Kosmonavt. Raketostr., 2003, vol. 1, no. 30, pp. 156–161.

2. Cole, D.G., Space weather: its effects and predictability, Adv. Space Environ. Res., 2003, vol. 1, pp. 295–302.

3. Romanova, N.V., Pilipenko, V.A., Yagova, N.V., and Belov, A.V., Statistical correlation of the rate of failures on geosynchronous satellites with fluxes of energetic electrons and protons, Cosmic Res., 2005, vol. 43, no. 3, pp. 179–185.

4. Novikov, L.S. and Voronina, E.N., Vzaimodeistvie kosmicheskikh apparatov s okruzhayushchei sredoi (Interaction of Spacecraft with the Environment), Moscow: KDU, 2021.

5. Vernov, S.N. and Chudakov, A.E., Investigations of cosmic radiation and of the terrestrial corpuscular radiation by means of rockets and satellites, Phys.-Usp., 1960, vol. 3, no. 2, pp. 230–250.

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