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Повний запис метаданих
Поле DC | Значення | Мова |
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dc.contributor.author | Kolodyazhnyi, Vyacheslav | |
dc.contributor.author | Lyashenko, Mykhaylo | |
dc.coverage.temporal | 15-17 December 2021 | |
dc.date.accessioned | 2021-12-28T20:03:16Z | - |
dc.date.available | 2021-12-28T20:03:16Z | - |
dc.date.created | 2021-12-15 | |
dc.date.issued | 2021-12-15 | |
dc.identifier.citation | Kolodyazhnyi V. Modeling of thermal process parameters in the ionosphere during the decline phase of solar activity CYCLE / Vyacheslav Kolodyazhnyi, Mykhaylo Lyashenko // ICAAEIT 2021, 15-17 December 2021. — Tern. : TNTU, Zhytomyr «Publishing house „Book-Druk“» LLC, 2021. — P. 162–169. — (Mathematical modeling in power engineering and information technologies). | |
dc.identifier.isbn | 978-617-8079-60-4 | |
dc.identifier.uri | http://elartu.tntu.edu.ua/handle/lib/36943 | - |
dc.description.abstract | Simulation of spatial-temporal variations of parameters of thermal processes in ionospheric plasma during the decline phase of solar activity cycle according to the Kharkiv incoherent scatter (IS) radar of is performed. For typical geophysical periods, the diurnal and altitude dependences of the energy supplied to the electron gas and the heat flux density transferred by electrons from the plasmasphere to the ionosphere are constructed. The analysis of spatial and temporal variations of parameters of thermal processes in the ionosphere is given. The obtained calculation results are used for further development of the CERIM IION regional model of ionosphere | |
dc.format.extent | 162-169 | |
dc.language.iso | en | |
dc.publisher | TNTU, Zhytomyr «Publishing house „Book-Druk“» LLC | |
dc.relation.ispartof | Proceedings of the International Conference „Advanced applied energy and information technologies 2021”, 2021 | |
dc.subject | ionosphere | |
dc.subject | modeling | |
dc.subject | incoherent scattering | |
dc.subject | parameters of thermal processes | |
dc.title | Modeling of thermal process parameters in the ionosphere during the decline phase of solar activity CYCLE | |
dc.type | Conference Abstract | |
dc.rights.holder | © Ternopil Ivan Puluj National Technical University, Ukraine, 2021 | |
dc.coverage.placename | Ternopil | |
dc.format.pages | 8 | |
dc.relation.referencesen | 1. Lyashenko, M.V., Sklyarov, I.B., Chernogor, L.F. (2006). Diurnal and seasonal variations of ionospheric plasma parameters during the period of solar activity decline. Space Science and Technology, 12(2/3), 45–58. | |
dc.relation.referencesen | 2. Lyashenko, M.V., Chernogor, L.F., Chernyak, Yu.V. (2006). Diurnal and seasonal variations in the parameters of the ionospheric plasma during the maximum solar activity. Space Science and Technology, 12(4), 56–70. | |
dc.relation.referencesen | 3. Lyashenko, M.V., Pulyaev, V.A., Chernogor, L.F. (2006). Diurnal and seasonal variations in the parameters of the ionospheric plasma during the growth of solar activity. Space science and technology, 12,(5/6), 58–68. | |
dc.relation.referencesen | 4. Dzyubanov, D.A., Lyashenko, M.V., Chernogor, L.F. (2008). Research and modeling of variations in ionospheric plasma parameters during the minimum period of the 23rd solar activity cycle. Space Science and Technology, 14(1), 44–56. | |
dc.relation.referencesen | 5. Domnin, I.F., Chepurnyy, Ya.M., Emelyanov, L.Ya., Chernyaev, S.V., Kononenko, A.F., Kotov, D.V., … Iskra, D.A. (2014). Kharkiv incoherent scatter facility. Bulletin of NTU “KhPI”. Series: Radiophysics and ionosphere, 47(1089), 28–42. | |
dc.relation.referencesen | 6. Chernogor, L., Domnin, I., Lyashenko, M. (2010). Development of Central Europe Regional Ionospheric Model (CERIM IION) for Space Weather Forecasting. EGU General Assembly 2010. Proceedings of the Conference. Vienna, Austria. | |
dc.relation.referencesen | 7. Iskra, D.A., Kolodyazhnyi, V.V., Lyashenko, M.V. (2019). Development of the CERIM IION regional ionosphere model as part of the creation of the space weather forecast service. Theoretical and applied aspects of radio engineering, instrument making and computer technologies, Proceedings of the IV International Scientific and Technical Conference. Ternopil, Ukraine. | |
dc.relation.referencesen | 8. Picone, J.M., Hedin, A.E., Drob, D.P. (2002). NRLMSISE-00 empirical model of the atmosphere: Statistical comparisons and scientific issues. Journal of Geophysical Research, 107(A12), 1–16. | |
dc.relation.referencesen | 9. Yemelyanov, L.Ya. (2017). Development of principles and instrumentation for generation of test and control signals of the incoherent scatter radar. Telecommunications and Radio Engineering, 76(14), 1259–1271. doi: 10.1615/TelecomRadEng.v76.i14.50. | |
dc.relation.referencesen | 10. Schunk, R.W., Nagy A.F. (2009). Ionospheres: Physics, Plasma Physics, and Chemistry. Cambridge University Press. | |
dc.identifier.citationen | Kolodyazhnyi V., Lyashenko M. (2021) Modeling of thermal process parameters in the ionosphere during the decline phase of solar activity CYCLE. ICAAEIT 2021 (Tern., 15-17 December 2021), pp. 162-169. | |
dc.contributor.affiliation | Institute of Ionosphere of the National Academy of Sciences of Ukraine and the Ministry of Education and Science of Ukraine, Kyrpychova str. 16, 61001, Kharkiv, Ukraine | |
dc.citation.spage | 162 | |
dc.citation.epage | 169 | |
Розташовується у зібраннях: | International conference „Advanced Applied Energy and Information Technologies 2021“, (ICAAEIT 2021) |
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