Standard

MAGNETIC FIELD RECONNECTION THEORY AND THE SOLAR WIND - MAGNETOSPHERE INTERACTION: A REVIEW. / Pudovkin, M.I.; Semenov, V.S.

в: Space Science Reviews, № 1-2, 1985, стр. 1-89.

Результаты исследований: Научные публикации в периодических изданияхстатья

Harvard

Pudovkin, MI & Semenov, VS 1985, 'MAGNETIC FIELD RECONNECTION THEORY AND THE SOLAR WIND - MAGNETOSPHERE INTERACTION: A REVIEW', Space Science Reviews, № 1-2, стр. 1-89. <http://elibrary.ru/item.asp?id=12673313>

APA

Pudovkin, M. I., & Semenov, V. S. (1985). MAGNETIC FIELD RECONNECTION THEORY AND THE SOLAR WIND - MAGNETOSPHERE INTERACTION: A REVIEW. Space Science Reviews, (1-2), 1-89. http://elibrary.ru/item.asp?id=12673313

Vancouver

Pudovkin MI, Semenov VS. MAGNETIC FIELD RECONNECTION THEORY AND THE SOLAR WIND - MAGNETOSPHERE INTERACTION: A REVIEW. Space Science Reviews. 1985;(1-2):1-89.

Author

Pudovkin, M.I. ; Semenov, V.S. / MAGNETIC FIELD RECONNECTION THEORY AND THE SOLAR WIND - MAGNETOSPHERE INTERACTION: A REVIEW. в: Space Science Reviews. 1985 ; № 1-2. стр. 1-89.

BibTeX

@article{c86fba29e9c941c7bb07436ed520ce74,
title = "MAGNETIC FIELD RECONNECTION THEORY AND THE SOLAR WIND - MAGNETOSPHERE INTERACTION: A REVIEW",
abstract = "This review considers the theory of the magnetic field line reconnection and its application to the problem of the interaction between the solar wind and the Earth{\textquoteright}s magnetosphere. In particular, we discuss the reconnection models by Sonnerup and by Petschek (for both incompressible and compressible plasmas, for the asymmetric and nonsteady-state cases), the magnetic field annihilation model by Parker; Syrovatsky{\textquoteright}s model of the current sheet; and Birn{\textquoteright}s and Schindler{\textquoteright}s solution for the plasma sheet structure. A review of laboratory and numerical modelling experiments is given. Results concerning the field line reconnection, combined with the peculiarities of the MHD flow, were used in investigating the solar wind flow around the magnetosphere. We found that in the presence of a frozen-in magnetic field, the flow differs significantly from that in a pure gas dynamic case; in particular, at the subsolar. part of the magnetopause a {\textquoteright}stagnation{\textquoteright} line appears (i.e., a line along which the stream lines are branchin",
author = "M.I. Pudovkin and V.S. Semenov",
year = "1985",
language = "English",
pages = "1--89",
journal = "Space Science Reviews",
issn = "0038-6308",
publisher = "Springer Nature",
number = "1-2",

}

RIS

TY - JOUR

T1 - MAGNETIC FIELD RECONNECTION THEORY AND THE SOLAR WIND - MAGNETOSPHERE INTERACTION: A REVIEW

AU - Pudovkin, M.I.

AU - Semenov, V.S.

PY - 1985

Y1 - 1985

N2 - This review considers the theory of the magnetic field line reconnection and its application to the problem of the interaction between the solar wind and the Earth’s magnetosphere. In particular, we discuss the reconnection models by Sonnerup and by Petschek (for both incompressible and compressible plasmas, for the asymmetric and nonsteady-state cases), the magnetic field annihilation model by Parker; Syrovatsky’s model of the current sheet; and Birn’s and Schindler’s solution for the plasma sheet structure. A review of laboratory and numerical modelling experiments is given. Results concerning the field line reconnection, combined with the peculiarities of the MHD flow, were used in investigating the solar wind flow around the magnetosphere. We found that in the presence of a frozen-in magnetic field, the flow differs significantly from that in a pure gas dynamic case; in particular, at the subsolar. part of the magnetopause a ’stagnation’ line appears (i.e., a line along which the stream lines are branchin

AB - This review considers the theory of the magnetic field line reconnection and its application to the problem of the interaction between the solar wind and the Earth’s magnetosphere. In particular, we discuss the reconnection models by Sonnerup and by Petschek (for both incompressible and compressible plasmas, for the asymmetric and nonsteady-state cases), the magnetic field annihilation model by Parker; Syrovatsky’s model of the current sheet; and Birn’s and Schindler’s solution for the plasma sheet structure. A review of laboratory and numerical modelling experiments is given. Results concerning the field line reconnection, combined with the peculiarities of the MHD flow, were used in investigating the solar wind flow around the magnetosphere. We found that in the presence of a frozen-in magnetic field, the flow differs significantly from that in a pure gas dynamic case; in particular, at the subsolar. part of the magnetopause a ’stagnation’ line appears (i.e., a line along which the stream lines are branchin

M3 - Article

SP - 1

EP - 89

JO - Space Science Reviews

JF - Space Science Reviews

SN - 0038-6308

IS - 1-2

ER -

ID: 5038440