Исследование многомасштабных процессов в периоды магнитосферных возмущений
Диссертация
В развитие приложений результатов данной работы предложены новые методы анализа данных, ориентированные на исследование многомасштабных эффектов в плазменном слое геомагнитного хвоста в рамках текущих и планируемых программ спутниковых и наземных наблюдений. В частности, предложена методика инструментального определения индексов стационарной критической динамики плазменного слоя хвоста по данным… Читать ещё >
Список литературы
- Pudovkin, M.1. and V.S. Semenov, Magnetic field reconnection theory and the solar wind — magnetosphere interaction: a review. Space Science Reviews, 1985. 41: p. 1−89.
- Мананкова, A.B., М.И. Пудовкин, Стационарные конфигурации двумерного токонесущего плазменного слоя: квазистатическая эволюция системы. Геомагнетизм и Аэрономия, 2003. 43(2): с. 153−160.
- Пудовкин, М.И., С.С. Сажин, Неустойчивости магнитосферной плазмы, Высокоширотные геофизические явления. 1974, М.: Наука, с. 199−223.
- Kallenrode, М.В., Space physics. An Introduction to Plasmas and Particles in the Heliosphere and Magnetospheres. 1998, Berlin: Springer-Verlag. 357 p.
- Troshichev, O.A., B.M. Kuznetsov, and M.I. Pudovkin, The current systems of the magnetic substorm growth and explosive phases. Planet. Space Sci., 1974. 22: p. 1403−1412.
- Трошичев, O.A., Б.М. Кузнецов, М. И. Пудовкин, Токовые системы предварительной и взрывной фаз суббури, Геомагнитные исследования, N 14. 1975, М.: Наука, р. 161−173.
- Clauer, C.R. and R.L. McPherron, Mapping the local time universal time development of magnetospheric substorms using mid-latitude magnetic observations. Journal of Geophysical Research — Space Physics, 1974. 79: p. 2811−2820.
- Трошичев, О.А. Ионосферно-магнитные возмущения в высоких широтах. 1986, Ленинград: Гидрометеоиздат. 256 с.
- Freeman, М.Р. and C.J. Farrugia, Solar wind input between substorm onsets during and after the October 18−20, 1995, magnetic cloud. Journal of Geophysical Research-Space Physics, 1999. 104(A10): p. 22 729−22 744.
- Klimas, A.J., D.N. Baker, D.A. Roberts, et al., A nonlinear dynamic analog model of geomagnetic activity. Journal of Geophysical Research, 1992. 97(A8): p. 12 253−12 266.
- Klimas, A. J., D. Vassiliadis, and D.N. Baker, The nonlinear dynamics of the magnetosphere: Where are we now?, in Multiscale Phenomena in Space Plasmas, T. Chang, Editor. 1996, Scientific Publishers, Inc.: Cambridge, Massachusetts, p. 299−312.
- Baker, D.N., T.I. Pulkkinen, M. Hesse, et al., A quantitative assessment of energy storage and release in the Earth’s magnetotail. Journal of Geophysical Research-Space Physics, 1997. 102(A4): p. 7159−7168.
- Weiss, L.A., P.H. Reiff, J.J. Moses, et al. Energy dissipation in substorms. in 1st International Conference on Substorms (ICS-1). 1992. Kiruna, Sweden: ESA. p. 309−317.
- Sergeev, V.A., T.I. Pulkkinen, and R.J. Pellinen, Coupled-mode scenario for the magnetospheric dynamics. Journal of Geophysical Research-Space Physics, 1996. 101(A6): p. 13 047−13 065.
- Копытенко, А., В.И. Почтарев, Динамика магнитных полюсов Земли. Геомагнетизм и Аэрономия, 1992. 32(5): с. 200−202.
- Klimas, A.J., D. Vassiliadis, D.N. Baker, et al., The organized nonlinear dynamics of the magnetosphere. Journal of Geophysical Research, 1996. 101(A6): p. 13 089−13 113.
- Kallio, E.I., T.I. Pulkkinen, H.E.J. Koskinen, et al., Loading-unloading processes in the nightside magnetosphere. Geophysical Research Letters, 2000. 27(11): p. 1627−1630.
- Sitnov, M.I., A.S. Sharma, K. Papadopoulis, et al., Modeling substorm dynamics of the magnetosphere: From self-organization and self-organized criticality to nonequilibrium phase transitions. Physical Review E, 2002. 65(1): p. 16 116.
- Rostoker, G., S.-I. Akasofu, J. Foster, et al., Magnetospheric substorms -definitions and signatures. Journal of Geophysical Research Space Physics, 1980. 85(A4): p. 1663−1668.
- Angelopoulos, V., W. Baumjohann, C.F. Kennel, et al., Bursty Bulk Flows in the Inner Central Plasma Sheet. Journal of Geophysical Research Space Physics, 1992. 97(A4): p. 4027−4039.
- Sergeev, V.A., Bursty bulk flows and their ionospheric footprints, in Multiscale Processes in the Earth’s Magnetosphere: from Interball to Cluster, J.-A. Sauvaud and Z. Nemecek, Editors. 2004, Kluwer Academic Publishers: Netherlands, p. 289−306.
- Pontius, D.H., Jr. and R.A. Wolf, Transient flux tubes in the terrestrial magnetosphere. Geophysical Research Letters, 1990. 17(1): p. 49−52.
- Sergeev, V.A., K. Liou, C.I. Meng, et al., Development of auroral streamers in association with localized impulsive injections to the inner magnetotail. Geophysical Research Letters, 1999. 26(3): p. 417−420.
- Angelopoulos, V., C.F. Kennel, F.V. Coroniti, et al., Statistical Characteristics of Bursty Bulk Flow Events. Journal of Geophysical Research-Space Physics, 1994. 99(A11): p. 21 257−21 280.
- Carbary, L.F., T. Sotirelis, P.T. Newell, et al., Correlation of LBH intensities with precipitating particle energies. Geophysical Research Letters, 2004. 31(L13801): p. doi:10.1029/2004GL019888.
- Veselovsky, I.S., P.T. Newell, and A.T.Y. Lui, Pervasive small-scale enhancements in mantle and polar rain precipitation. Geophysical Research Letters, 2005. 22(23): p. 3263−3266.
- Uritsky, V.M., A.J. Klimas, D. Vassiliadis, et al., Scale-Free Statistics of Spatiotemporal Auroral Emissions as Depicted by POLAR UVI Images:
- Dynamic Magnetosphere is an Avalanching System. Journal of Geophysical Research-Space Physics, 2002.107(A12): p. 1426−1436.
- Kozelov, B.V., V.M. Uritsky, and A.J. Klimas, Power law probability distributions of multiscale auroral dynamics from ground-based TV observations. Geophysical Research Letters, 2004. 31(20): p. L20804.
- Milovanov, A.V. and L.M. Zelenyi, Self-organized branching of magnetotail current systems near the percolation threshold. Journal of Geophysical Research Space Physics, 2001.106(A4): p. 6291−6307.
- Milovanov, A.V., L.M. Zelenyi, P. Veltri, et al., Geometric description of the magnetic field and plasma coupling in the near-Earth stretched tail prior to a sub storm. Journal of Atmospheric and Solar-Terrestrial Physics, 2001. 63: p. 705−721.
- Milovanov, A.V. and L.M. Zelenyi, Nonequilibrium stationary states in the Earth’s magnetotail: stochastic acceleration processes and nonthermal distribution functions. Advances in Space Research, 2002. 30(12): p. 26 672 674.
- Bak, P., C. Tang, and K. Wiesenfeld, Self-Organized Criticality an Explanation of 1/FNoise. Physical Review Letters, 1987. 59(4): p. 381−384.
- Jensen, H.J., Self-organized criticality: emergent complex behavior in physical and biological systems. 1998, Cambridge: Cambridge University Press. 153.
- Bak, P., C. Tang, and K. Wiesenfeld, Self-Organized Criticality. Physical Review A, 1988. 38(1): p. 364−374.
- Bak, P., How Nature Works: The Science of Self Organized Criticality. 1997, Oxford: Oxford University Press.
- Chang, Т., Low-Dimensional Behavior and Symmetry-Breaking of Stochastic- Systems Near Criticality Can These Effects Be Observed in Space and in the Laboratory. Ieee Transactions On Plasma Science, 1992. 20(6): p. 691−694.
- Заславский, Г. М., Р.З. Сагдеев, Введение в нелинейную физику: от маятника до турбулентности и хаоса. 1989, М. Наука. 368 с.
- Voros, Z., W. Baumjohann, R. Nakamura, et al., Multi-scale magnetic field intermittence in the plasma sheet. Annales Geophysicae, 2003. 21: p. 19 551 964.
- Tsurutani, B.T., M. Sugiura, T. Iyemori, et al., The Nonlinear Response of AE to the IMF Bs Driver a Spectral Break At 5 Hours. Geophysical Research Letters, 1990. 17(3): p. 279−282.
- Takalo, J., J. Timonen, A.J. Klimas, et al., A coupled-map model for the magnetotail current sheet. Geophysical Research Letters, 1999. 26(19): p. 2913−2916.
- Takalo, J., J. Timonen, and H. Koskinen, Correlation Dimension and Affinity of AE Data and Bicolored Noise. Geophysical Research Letters, 1993. 20(15): p. 1527−1530.
- Consolini, G. and M.F. Marcucci, Multifractal structure and intermittence in the AE index time series. Nuovo Cimento Delia Societa Italiana Di Fisica C-Geophysics and Space Physics, 1997. 20(6): p. 939−949.
- Uritsky, V.M. and M.I. Pudovkin, Fractal dynamics of AE-index of geomagnetic activity as a potential manifestation of self-organized criticality in magnetosphere. Geomagnetizm I Aeronomiya, 1998. 38(3): p. 17−28.
- Uritsky, V.M., A.J. Klimas, and D. Vassiliadis, Comparative study of dynamical critical scaling in the auroral electrojet index versus solar wind fluctuations. Geophysical Research Letters, 2001. 28(19): p. 3809−3812.
- Angelopoulos, V., T. Mukai, and S. Kokubun, Evidence for intermittency in Earth’s plasma sheet and implications for self-organized criticality. Physics of Plasmas, 1999. 6(11): p. 4161−4168.
- Lui, A.T.Y., S.C. Chapman, K. Liou, et al., Is the dynamic magnetosphere an avalanching system? Geophysical Research Letters, 2000. 27(7): p. 911 914.
- Chapman, S.C., N.W. Watkins, R.O. Dendy, et al., A simple avalanche model as an analogue for magnetospheric activity. Geophysical Research Letters, 1998. 25(13): p. 2397−2400.
- Watkins, N.W., S.C. Chapman, R.O. Dendy, et al., Robustness of collective behaviour in strongly driven avalanche models: magnetospheric implications. Geophysical Research Letters, 1999. 26(16): p. 2617−2620.
- Uritsky, V.M. and V.S. Semenov. A sandpile model for global statistics of the reconnection events in the magnetotail. in The Solar Wind -Magnetosphere System 3. 1998. Graz, Austria: Austrian Academy of Scince. p. 299−308.
- Ahn, B.H., S.I. Akasofu, and Y. Kamide, The Joule Heat-Production Rate and the Particle Energy Injection Rate As a Function of the Geomagnetic Indices AE and AL. Journal of Geophysical Research-Space Physics, 1983. 88(A8): p. 6275−6287.
- Uritsky, V.M., A.J. Klimas, J.A. Valdivia, et al., Stable critical behavior and fast field annihilation in a magnetic field reversal model. Journal of Atmospheric and Solar-Terrestrial Physics, 2001. 63(13): p. 1425−1433.56