Magneto-vortical model of coronal mass ejection

1Ladikov-Roev, Yu.P, 1Linnik, AA, 1Salnikov, NN, 1Cheremnykh, ОК
1Space Research Institute of the National Academy of Sciences of Ukraine and the State Space Agency of Ukraine, Kyiv, Ukraine
Kosm. nauka tehnol. 2004, 10 ;(5-6):131-134
Publication Language: Russian
The model of coronal mass ejections (CME) from the Sun as magneto-vortical structure is proposed. The model allowed one to explain effects of expansion of CME, their stability and movement not along the normal to the Sun's surface; these phenomena were not explained in the framework of the models proposed before. Calculations carried out with the use of the model are in good agreement with observed CME movement data.
1. Zastenker G. N., Zelenyi L. M. Solar magnetic clouds attack the Earth. Zemlja i Vselennaja, No. 5, 46 (1999) [in Russian].
2. Ladikov-Roev Yu. P. Magneto-vortex rings. Izv. Akad. Nauk SSSR, Ser. Mekh. Mashinostr., No. 4, 7—13 (1960) [in Russian].
3. Ladikov-Roev Yu. P. Some problems in the dynamics of magneto-vortex configurations. Prikl. Mat. Mekh., 24 (5), 897—905 (1960) [in Russian].
4. Ladikov-Roev Yu. P., Salnikov N. N. On the complex behavior of dynamical systems. Dynamics of a system of vortices in perfect fluid. Problemy upravlenija i informatiki, No. 3, 47—60 (2002) [in Russian].
5. Lamb H. Hydrodynamics: Transl. from Eng., 928 p. (OGIZ, Moscow, 1947) [in Russian].
6. Prist E., Khud A. (Ed.) Cosmic Magnetic Hydrodynamics: Transl. from Eng., 439 p. (Mir, Moscow, 1995) [in Russian].
7. Priest E. R. Solar Magnetohydrodynamics, 592 p. (Mir, Moscow, 1985) [in Russian].
8. Gopalswamy N., Thompson B. J. Early life of coronal mass ejections. J. of Atmospheric and Solar-Terrestrial Physics, 62 (16), 1457—1469 (2000).
9. Gopalswamy N. Coronal mass ejections: Initiation and detection. Advances in Space Research, 31 (4), 869— 881 (2003).
10. Gostling J. T. Coronal Mass Ejections, 4201—4219 (Geophysical Monograph Series, 99, 1997).
11. Lin J., Soon W. Evolution of morphological features ofCMEs deduced from catastrophe model of solar eruptions. New Astronomy, 9 (8), 611—628 (2004).
12. Linker J. A., et al. Flux cancellation and coronal mass ejections . Physics of Plasmas, 10 (5), 1971 — 1978 (2003).
13. Pick M., Maia D., Marque Ch. Solar radio observations and development of coronal mass ejections. Advances in Space Research, 32 (4), 467—472 (2003).
14. Russell C. T., Mulligan T. On the magnetosheath thicknesses of interplanetary coronal mass ejections. Planetary and Space Sci., 50 (5-6), 527—534 (2002).