Pankaj Kumar, Judith T. Karpen, P. K. Manoharan and N. Gopalswamy
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引用次数: 0
摘要
了解激波如何与日冕结构相互作用对于理解日冕和内日球层中粒子加速的机制至关重要。利用同步射电和白光观测,我们研究了日冕物质抛射(CME)驱动的激波和等离子体之间的相互作用。LASCO和STEREO- a COR-2白光图像用于跟踪等离子体、CME及其相关激波的演化,而Wind/WAVES和STEREO/WAVES动态光谱提供激波-等离子体相互作用在≈7 R⊙下的互补射电特征。当冲击波通过等离子体传播时,发现了一个行星际II型射电暴。等离子体与CME的合并伴随着行星际III型射电爆发,这表明在重连过程中逃逸的电子束。这些观测结果清楚地表明,激波等离子体相互作用可以提高与日冕物质抛射相关的粒子加速效率,对耀斑和日球层电流片中的电子加速也有影响。
Imaging and Radio Signatures of Shock–Plasmoid Interaction
Understanding how shocks interact with coronal structures is crucial for understanding the mechanisms of particle acceleration in the solar corona and inner heliosphere. Using simultaneous radio and white-light observations, we investigate the interaction between a coronal mass ejection (CME)-driven shock and a plasmoid. LASCO and STEREO-A COR-2 white-light images are analyzed to track the evolution of the plasmoid, CME, and its associated shock, while the Wind/WAVES and STEREO/WAVES dynamic spectra provide complementary radio signatures of the shock–plasmoid interaction at ≈7 R⊙. An interplanetary type II radio burst was detected as the shock propagated through the plasmoid. The merging of the plasmoid into the CME was accompanied by interplanetary type III radio bursts, suggesting escaping electron beams during the reconnection process. These observations clearly demonstrate that shock–plasmoid interactions can enhance the efficiency of particle acceleration associated with CMEs, with implications for electron acceleration in flare and heliospheric current sheets as well.
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