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Phan TD Kistler LM Klecker B Haerendel G Paschmann G Sonnerup BU Baumjohann W Bavassano-Cattaneo MB Carlson CW DiLellis AM Fornacon KH Frank LA Fujimoto M Georgescu E Kokubun S Moebius E Mukai T Oieroset M Paterson WR Reme H 《Nature》2000,404(6780):848-850
Magnetic reconnection is a process that converts magnetic energy into bi-directional plasma jets; it is believed to be the dominant process by which solar-wind energy enters the Earth's magnetosphere. This energy is subsequently dissipated by magnetic storms and aurorae. Previous single-spacecraft observations revealed only single jets at the magnetopause--while the existence of a counter-streaming jet was implicitly assumed, no experimental confirmation was available. Here we report in situ two-spacecraft observations of bi-directional jets at the magnetopause, finding evidence for a stable and extended reconnection line; the latter implies substantial entry of the solar wind into the magnetosphere. We conclude that reconnection is determined by large-scale interactions between the solar wind and the magnetosphere, rather than by local conditions at the magnetopause. 相似文献
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Zhang TL Delva M Baumjohann W Auster HU Carr C Russell CT Barabash S Balikhin M Kudela K Berghofer G Biernat HK Lammer H Lichtenegger H Magnes W Nakamura R Schwingenschuh K Volwerk M Vörös Z Zambelli W Fornacon KH Glassmeier KH Richter I Balogh A Schwarzl H Pope SA Shi JK Wang C Motschmann U Lebreton JP 《Nature》2007,450(7170):654-656
Venus has no significant internal magnetic field, which allows the solar wind to interact directly with its atmosphere. A field is induced in this interaction, which partially shields the atmosphere, but we have no knowledge of how effective that shield is at solar minimum. (Our current knowledge of the solar wind interaction with Venus is derived from measurements at solar maximum.) The bow shock is close to the planet, meaning that it is possible that some solar wind could be absorbed by the atmosphere and contribute to the evolution of the atmosphere. Here we report magnetic field measurements from the Venus Express spacecraft in the plasma environment surrounding Venus. The bow shock under low solar activity conditions seems to be in the position that would be expected from a complete deflection by a magnetized ionosphere. Therefore little solar wind enters the Venus ionosphere even at solar minimum. 相似文献
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本文介绍了逐差法处理物理实验数据的基本方法和适用范围,表明了逐差法处理实验数据的优点. 相似文献
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