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@article{MM_2006_18_7_a9,
author = {S. A. Grigoryev and L. V. Zinin and S. A. Ishanov},
title = {Nonstationary processes arising from action on cosmic plasma},
journal = {Matemati\v{c}eskoe modelirovanie},
pages = {115--128},
publisher = {mathdoc},
volume = {18},
number = {7},
year = {2006},
language = {ru},
url = {http://geodesic.mathdoc.fr/item/MM_2006_18_7_a9/}
}
TY - JOUR AU - S. A. Grigoryev AU - L. V. Zinin AU - S. A. Ishanov TI - Nonstationary processes arising from action on cosmic plasma JO - Matematičeskoe modelirovanie PY - 2006 SP - 115 EP - 128 VL - 18 IS - 7 PB - mathdoc UR - http://geodesic.mathdoc.fr/item/MM_2006_18_7_a9/ LA - ru ID - MM_2006_18_7_a9 ER -
S. A. Grigoryev; L. V. Zinin; S. A. Ishanov. Nonstationary processes arising from action on cosmic plasma. Matematičeskoe modelirovanie, Tome 18 (2006) no. 7, pp. 115-128. http://geodesic.mathdoc.fr/item/MM_2006_18_7_a9/
[1] S. A. Grigorev, L. V. Zinin, I. Yu. Vasilenko, V. E. Lynovskii, “Mnogoionnye odnomernye MGD modeli dinamiki vysokoshirotnoi ionosfery. 1: Matematicheskaya model ionosfery, uchityvayuschaya sem sortov polozhitelnykh ionov”, Kosmicheskie issledovaniya, 37:5 (1999), 451–462
[2] S. A. Grigorev, K. S. Latyshev, “Chislennye metody v odnomernykh modelyakh ionosfery”, Matem. modelirovanie, 1:8 (1989), 83–98 | Zbl
[3] S. A. Grigorev, K. S. Latyshev, “Nestatsionarnye protsessy v geomagnitnykh silovykh trubkakh. Analiz chislennykh metodov”, Matem. modelirovanie, 1:9 (1989), 141–150 | Zbl
[4] S. A. Grigorev, L. V. Zinin, K. S. Latyshev, “Vliyanie elektronnogo nagreva na prodolnye skorosti ionov $O^+$ v magnitno-silovykh trubkakh”, Kosmicheskie issledovaniya, 24:5 (1986), 787–791
[5] S. A. Grigorev, “Protsessy vosstanovleniya plazmosfery. 1: Dinamika ionov $H^+$”, Kosmicheskie issledovaniya, 29:1 (1991), 85–94
[6] L. V. Zinin, S. A. Grigorev, D. V. Chugunin, Yu. I. Galperin, V. E. Lynovskii, I. V. Vasilenko, K. S. Latyshev, N. Dyubuloz, “Mnogoionnye odnomernye MGD-modeli dinamiki vysokoshirotnoi ionosfery. 2: Ionnyi fontan v kaspe/klefte: sravnenie modeli TUBE-7 s izmereniyami mass-spektrometrom “Giperboloid” na sputnike “Interbol-2””, Kosmicheskie issledovaniya, 38:1 (2000), 5–15
[7] M. N. Vlasov, S. A. Grigorev, S. A. Ishanov, K. S. Latyshev, “Sravnitelnyi analiz razlichnykh gidrodinamicheskikh priblizhenii dlya opisaniya ionosferno-magnitosfernoi plazmy”, Kosmicheskie issledovaniya, 29:3 (1991), 404–413
[8] M. N. Vlasov, S. A. Ishanov, V. V. Medvedev, K. S. Latyshev, “Model dinamiki ionosfernoi “dyry” s uchetom protsessov v silovoi trubke”, Kosmicheskie issledovaniya, 28:2 (1990), 248–254 | MR
[9] M. N. Vlasov, S. A. Ishanov, V. V. Medvedev, “Modelirovanie effektov antropogennykh vozdeistvii v sopryazhennykh oblastyakh ionosfery i plazmosfery”, Kosmicheskie issledovaniya, 32:1 (1994), 154–158 | MR
[10] M. N. Vlasov, S. A. Ishanov, S. A. Grigorev, “Modelirovanie effektov dinamicheskikh vozmuschenii plotnosti i temperatury ionosferno-magnitosfernoi plazmy na plazmosfernykh vysotakh”, Kosmicheskie issledovaniya, 35:3 (1997), 248–252
[11] M. N. Vlasov, S. A. Grigorev, S. A. Ishanov, “Vliyanie dinamicheskogo vozdeistviya v plazmosfere na sutochnyi khod $N_m F2$”, Kosmicheskie issledovaniya, 35:4 (1997), 440–441
[12] R. C. Olsen, “The hidden ion population of the magnetosphere”, J. Geophys. Res., 87 (1982), 3481–3488 | DOI
[13] R. C. Olsen, C. R. Chappell, D. L. Gallagher et al., “The hidden ion population: revisited”, J. Geophys. Res., 90 (1985), 12121–12132 | DOI
[14] L. V. Zinin, Yu. I. Galperin, V. A. Gladyshev, S. A. Grigorev, L. Zhirar, T. M. Mulyarchik, “Matematicheskaya model izmerenii teplovoi anizotropnoi plazmy energo-mass-uglovymi spektrometrami ionov na zaryazhennom sputnike”, Kosmicheskie issledovaniya, 33:6 (1995), 563–571
[15] J. J. Berthelier, J. Covinhes, M. Godefroy et al., “The thermal ion mass spectrometer on board “Aureol-3”: the “Dyction” experiment”, Ann. Geophys., 38 (1982), 591–614
[16] Ya. L. Alpert, A. V. Gurevich, L. P. Pitaevskii, Iskusstvennye sputniki v razrezhennoi plazme, Nauka, M., 1964
[17] Yu. I. Galpepin, S. A. Gpigopev, L. V. Zinin, V. A. Gladyshev, Raschety raspredeleniya elektricheskogo potentsiala vokrug sputnika “Avpopalnyi zond” proekta “Interbol”, Institut kosmicheskikh issledovanii RAH. Preprint No 1879, 1993
[18] V. Ridler, K. Torkar, M. V. Veselov i dr., “Eksperiment RON po aktivnomu regulirovaniyu elektrostaticheskogo potentsiala kosmicheskogo apparata”, Kosmicheskie issledovaniya, 36 (1998), 53–62
[19] K. Torkar, M. V. Veselov, V. V. Afonin et al., “An experiment to study and control the Langmuir sheath around “Interball-2””, Ann. Geophys., 16 (1998), 1086–1096 | DOI
[20] L. V. Zinin, Yu. I. Galperin, S. A. Grigorev, T. M. Mulyarchik, “Ob izmereniyakh effektov polyarizatsionnogo dzheta vo vneshnei plazmosfere”, Kosmicheskie issledovaniya, 36 (1998), 42–52
[21] M. Bouhram, N. Dubouloz, M. Hamelin et al., “Plasma sheath analysis and current calculations from the potential distribution around INTERBALL Auroral probe”, A spacecraft charging odyssey, Proceeding of the 7th Spacecraft Charging Technology Conference (23–27 April 2001, ESTEC, Noordwijk, The Netherlands, ESA SP-476), 557–561
[22] M. Hamelin, M. Bouhram, N. Dubouloz et al., “Combined effects of satellite and ion detector geometries and potentials on the measurements of thermal ions. The Hyperboloid instrument on Interball”, A spacecraft charging odyssey, Proceeding of the 7th Spacecraft Charging Technology Conference (23–27), 569–574
[23] I. V. Rylina, L. V. Zinin, S. A. Grigorev, M. V. Veselov, “Gidrodinamicheskii podkhod k modelirovaniyu raspredeleniya teplovoi plazmy vokrug dvizhuschegosya zaryazhennogo sputnika”, Kosmicheskie issledovaniya, 40:4 (2002), 395–405