Geodesic
Formation of large-scale jet current as a result of development flutter instability
Matematičeskoe modelirovanie, Tome 18 (2006) no. 1, pp. 17-28.

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Theoretical and numerical researches of an opportunity of development flutter instability at the front the plasma cloud extending in a geomagnetic field are executed. The provisional range of heights, energy and breadths at which instability may develop is determined, resulting to formation of jet current. Features of behavior of such large-scale jet are analyzed. 
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E. L. Stupitsky; M. O. Vasil'ev; A. J. Repin; A. S. Kholodov; Ja. A. Kholodov. Formation of large-scale jet current as a result of development flutter instability. Matematičeskoe modelirovanie, Tome 18 (2006) no. 1, pp. 17-28. http://geodesic.mathdoc.fr/item/MM_2006_18_1_a2/

[1] Kholodov Ya. A., Kholodov A. S., Stupitskii E. L., Repin A. Yu., “Chislennye issledovaniya povedeniya plazmennogo oblaka v verkhnei ionosfere”, Matematicheskoe modelirovanie, 17:11 (2005), 43–62 | Zbl

[2] Taylor G. I., Proc. Roy. Soc. London, A186:273 (1946) ; A201:175 (1950) | MR

[3] Fermi E., “Teilorovskaya neustoichivost neszhimaemoi zhidkosti”, Nauchnye trudy, t. 2, Nauka, M., 1972, 493–497

[4] Fermi E., Neiman Dzh., “Teilorovskaya neustoichivost na granitse dvukh neszhimaemykh zhidkostei”, Nauchnye trudy, t. 2, Nauka, M., 1972, 498

[5] Kadomtsev B. B., “Gidrodinamicheskaya ustoichivost plazmy”, Voprosy teorii plazmy, 1963, no. 2 | Zbl

[6] Longmair N., Fizika plazmy, Atomizdat, M., 1968

[7] Poukey J. W., “Expansion of a Plasma Shell into a Vacuum Magnetic Field”, Physics of Fluids, 12:7 (1969), 1452–1458 | DOI

[8] Philipp W. G., “Expansion of an ion cloud in the Earth's Magnetic Field”, Planet. Space Sci., 19 (1971), 1095–1119 | DOI

[9] Anisimov S. I., Zeldovich Ya. B., “Relei-teilorovskaya neustoichivost granitsy mezhdu produktami detonatsii i gazom pri sfericheskom vzryve”, Pisma v ZhTF, 3:20 (1977), 1081–1085 | MR

[10] Grun J., Stamper J., Manha C. et al., “Instability of Taylor–Sedov Blast Waves Propagating through an Uniform Gas”, Phys. Rev. Lett., 66:21 (1991) | DOI

[11] Rozanov V. B., Stepanov R. V., Analiz slozhnykh mnogomodovykh spektrov vozmuschenii poverkhnosti razdela sred v probleme gidrodinamicheskikh neustoichivostei, Preprint FIAN, No 70, 1997

[12] Stupitskii E. L., “Ob osobennostyakh plazmennykh techenii vzryvnogo tipa v okolozemnom kosmicheskom prostranstve”, Geomagnetizm i aeronomiya (to appear)

[13] Lamb G., Gidrodinamika, M., 1947 | Zbl

[14] Stupitskii E. L., Repin A. Yu., Kholodov A. S., Kholodov Ya. A., “Chislennye issledovaniya povedeniya vysokoenergeticheskogo plazmennogo sgustka v verkhnei ionosfere. Ch. I. Nachalnaya stadiya razleta i tormozheniya sgustka”, Matematicheskoe modelirovanie, 16:7 (2004), 43–58

[15] Kholodov A. S., Kholodov Ya. A., Stupitskii E. L., Repin A. Yu., “Chislennye issledovaniya povedeniya vysoko- energeticheskogo plazmennogo sgustka v verkhnei ionosfere. Ch. II. Razrabotka trekhmernoi modeli”, Matematicheskoe modelirovanie, 16:8 (2004), 3–23 | Zbl

[16] Kestenboim Kh. S., Metelkin E. V., Fedorov G. V., Frolov A. G., O zhelobkovoi neustoichivosti plazmennogo oblaka, razletayuschegosya v odnorodnom magnitnom pole, Preprint No 371, IPMekh, M., 1989

[17] Zinn J., Hoerlin H., Petschek A. G., Radiation Trapped in the Earth's Magnetic Field, ed. B. M. McCormac, Reidel Publ. Co., Dordrecht, Holland, 1966

[18] Ananin O. B., Bykovskii Yu. A., Peklenkov V. D., Stupitskii E. L., “Prostranstvenno-vremennye kharakteristiki lazernoi plazmy v poperechnom magnitnom pole”, Materialy konferentsii po FNTP, Leningrad, 1983

[19] Antonov V. M., Bashurin V. P., Golubev A. I. i dr., O mekhanizme besstolknovitelnogo vzaimodeistviya mezhdu fonovoi plazmoi i plazmennym oblakom, Preprint No 18–84, Novosibirsk, 1984

[20] Repin A. Yu., Stupitskii E. L., Faenov A. Ya. i dr., “Razlet lazernoi plazmy v odnorodnom magnitnom pole”, Kvantovaya elektronika, 19:3 (1992)