Studying of space weather electromagnetic parameters of ionosphere in "Obstanovka 1-step" experiment on the Russian segment of the ISS
Автор: Klimov Stanislav Ivanovich, Grushin Valery Arkadievich, Balajthy Kalman, Bachvarov Dichko Enchev, Belyaev Serhiy Mikhaylovich, Bergman Jan E.S., Ferencz Csaba, Georgieva Katya Yancheva, Gough Michael Paul, Belikova Alla Borisovna, Belyakova Lyudmila Dmitrievna, Grechko Tatiana Vasilyevna, Konoshenko Viktor Petrovich, Korepanov Valery Evgenyevich, Kirov Boyan Borisov, Lapshinova Olga Viktorovna, Lichtenberger Janos, Marusenkov Andriy Anatolyevich, Morawski Marek, Nagy Janos, Nedkov Roumen, Novikov Denis Igorevich, Rodin Vyacheslav Georgievich, Rothkaehl Hanna, Stanev Georgi Antonov, Szalai Sandor, Szegedi Peter
Журнал: Космическая техника и технологии @ktt-energia
Рубрика: Инновационные технологии в аэрокосмической деятельности
Статья в выпуске: 1 (32), 2021 года.
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The program and results of physical research in the international (5 countries) space experiment «The situation (1 stage)», conducted onboard the Russian segment of the International Space Station (ISS) in the period 27.02.2013 to 09.05.2015, is presented. The methods and scientific tasks of the experiment and the composition of the Plasma-wave complex based on the combined wave diagnostics method are described in detail, and designed to conduct geophysical studies through long-term monitoring measurements of the electromagnetic parameters of the ionosphere plasma and plasma-wave processes associated with the manifestation in the ionosphere of the solar-magnetosphere-ionosphere and ionosphere-atmosphere relationships, i. e, parameters of space weather. Studies in the near-surface zone of plasma-wave processes of interaction of an extra-large spacecraft, like ISS, with the ionosphere are necessary for both applied and fundamental geophysical studies. The electric and magnetic fields and currents measured at the surface of the ISS are determined by the parameters of the surrounding ionosphere plasma and the nature of the interaction of the materials on the surface with this medium.
Orbital space station, fundamental space research, ionosphere plasma, plasma-wave processes, electromagnetic fields and radiation, scientific instrument, space weather
Короткий адрес: https://sciup.org/143178146
IDR: 143178146 | DOI: 10.33950/spacetech-2308-7625-2021-1-20-41