Space project "IONOSAT – MICRO": readiness for implementation

Heading: 
Space and Atmospheric Physics
1Lizunov, GV, 2Korepanov, VE, 2Lukenyuk, AA, 1Piankova, OV, 1Fedorov, OP
1Space Research Institute of the National Academy of Sciences of Ukraine and the State Space Agency of Ukraine, Kyiv, Ukraine
2L’viv Centre of the Space Research Institute of the National Academy of Sciences of Ukraine and the State Space Agency of Ukraine, L’viv, Ukraine
Space Sci. & Technol. 2022, 28 ;(6):03-11
https://doi.org/10.15407/knit2022.06.003
Publication Language: Ukrainian
Abstract: 
Ionosat-Micro is a fundamental scientific project devoted to the study of near-Earth. The project is conceived as an answer to the challenges posed by the modern development of knowledge about Space Weather and the ionospheric responses to surface energy sources (such as weather phenomena, power lines operation, earthquakes and processes of their preparation, powerful technogenic hazards, etc.). The project is being prepared with the support and within the framework of The National Space Program of Ukraine and The Program of the National Academy of Sciences of Ukraine for Scientific Space Research. The article outlines the scientific principles of the project, describes the parameters of the space system being created, and the composition and operation logic of the scientific equipment. The project is planned to be implemented on board specially designed scientific satellite launched on circular, sun-synchronous orbit in the LST range of 10:00–11:00, with inclination 98 degree and altitude of 600–700 km (orbital parameters, method and date of the launch TBD). Ionosat-Micro scientific toolkit is intended to achieve the goal of the project by registration: 1) the global structure and physical parameters of the neutral atmosphere and the plasma, 2) the structure and parameters of the space current systems and geomagnetic field, 3) the ULF-ELF-VLF electromagnetic waves.
Keywords: ionosphere, scientific instrumentation, solar-terrestrial links, space weather
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References: 

1. Dudkin F., Korepanov V., Dudkin D., Pilipenko V., Pronenko V., Klimov S. Electric field of the power terrestrial sources observed by microsatellite Chibis-M in the Earth's ionosphere in frequency range 1-60 Hz. Geophys. Res. Lett. 2015. V. 42. P. 5686-5693.
https://doi.org/10.1002/2015GL064595
2. Schrijver C.J., Kauristie K., Aylward A.D., Denardini C.M., Gibson S.E., Glover A., Gopalswamy N., Grande M., Hapgood M., Heynderickx D., Jakowski N., Kalegaev V.V. Understanding space weather to shield society: A global road map for 2015-2025 commissioned by COSPAR and ILSW. Adv. Space Res. 2015.
https://doi.org/10.1016/j.asr.2015.03.023
3. Rolland L.M., Lognonn'e P., Astafyeva E., Kherani E.A., Kobayashi N., Mann M., Munekane H. The resonant response of the ionosphere imaged after the 2011 off the Pacific coast of Tohoku Earthquake. Earth Planets Space. 2011. V. 63 (No. 7). P. 853−857
https://doi.org/10.5047/eps.2011.06.020
4. Yampolski Yu.M., Zalizovski A.V., Litvinenko L.N., Lizunov G.V., Groves K., Moldwin M. Magnetic field variations in Antarctica and the conjugate region (New England) stimulated by cyclone activity. Radiphysics and Radioastronomy. 2004. V. 9 (No 2). P. 130-151 [In Russian]
5. Chernogor L.F Physics and ecology of catastrophes. Monograph. (Kharkov: KhNU named after V.N. Karazin, 2012) [In Russian]
6. Chernogor L.F Radiophysics and geomagnetic effects of rocket launches. Monograph. (Kharkov: KhNU named after V.N. Karazin, 2009) [In Russian]
7. Bullough K., Kaiser R. Strangeways, H.J. Unintentional man-made modification effects in the magnetosphere. Journal of Atmospheric and Terrestrial Physics. Dec.,1985. V. 47. P. 1211-1223
https://doi.org/10.1016/0021-9169(85)90089-3
8. Parrot M. World map of ELF/VLF emissions as observed by low-orbiting satellite. Annales Geophysicae. 1990. V. 8. P. 135−145
9. Rothkaehl H., Parrot M. Electromagnetic emissions detected in the topside ionosphere related to the human activity. Journal of Atmospheric and Terrestrial Physics. 2005. V. 67, Issue 8-9. P. 821−828
https://doi.org/10.1016/j.jastp.2005.02.003
10. Hayakawa M. (Ed.) The Frontier of Earthquake Prediction Studies (Nihon-senmontosho-Shuppan, Tokyo, 2012)
11. Rothkaehl H., Izhovkina N., Prutensky I., Pulinets S., Parrot M., Lizunov G., Blecki J., Stanislawska I. Ionospheric disturbances generated by different natural processes and by human activity in Earth plasma environment. Ann. Geophys. 2004. Supplement to vol. 47, No 2/3. P. 1215−1226
https://doi.org/10.4401/ag-3295
12. Space Project "Ionosat-Micro": monograph. Ed. by Zasukha S.A., Fedorov O.P. K.: Academiperidic 2013. 218 p. [in Russian]
13. Piankova О., Lizunov G., Melanchenko A., Protas О. Information system for collection, processing and distribution data of Geospace projects. Space science and technology. 2020. 26, № 1 (122). P. 37-47. [in Russian]
https://doi.org/10.15407/knit2020.01.037