Bruce T. Tsurutani, Rajkumar Hajra, Gurbax Lakhina, Xing Meng
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引用次数: 0
摘要
Meng等人(2019;https://doi.org/10.1029/2018JA026425)讨论的2000年4月6-7日SYM-H强度=-319 nT的超级风暴被误认为是与太阳耀斑相关的行星际日冕物质抛射造成的。行星际原因是一个非常不寻常的冠状相互作用区域(CIR),该区域由一个磁声波马赫数为 Mms = 4.6 的强快速正向冲击(FS)和一个磁声波马赫数为 Mms = 1.9 的快速反向冲击(RS)所包围。异常强大的 FS 在 CIR 的前半部分造成了 ∼3 因子的行星际磁场(IMF)振幅放大,南向 IMF Bz = -27 nT 的峰值造成了超级风暴。切向不连续面和流界面之间的等离子体区域的尺度大小为∼0.096 AU。我们推测这是首次在 1 AU 处探测到日冕喷流。喷流/金磁舌(1959;https://doi.org/10.1029/JZ064i011p01665)被嵌入日冕红外内,包含了向南的Bz,并引起了磁暴。我们假设日冕洞的缩小和磁重联导致了喷流的形成和释放。
Revisiting the Superstorm on 6–7 April 2000 Caused by an Extraordinary Corotating Interaction Region (With an Embedded Coronal Jet?)
The 6–7 April 2000 superstorm of SYM-H intensity = −319 nT discussed in Meng et al. (2019; https://doi.org/10.1029/2018JA026425) was misidentified as being due to an interplanetary coronal mass ejection associated with a solar flare. The interplanetary cause was a highly unusual corotating interaction region (CIR) bounded by a strong fast forward shock (FS) with magnetosonic Mach number Mms = 4.6 and a fast reverse shock (RS) with Mms = 1.9. The exceptionally strong FS caused a ∼3-factor interplanetary magnetic field (IMF) magnitude amplification in the leading half of the CIR with peak southward IMF Bz = −27 nT causing the superstorm. A plasma region between a tangential discontinuity and the stream interface had a scale size of ∼0.096 AU. We hypothesize that this is the first detection of a coronal jet at 1 AU. The jet/Gold magnetic tongue (1959; https://doi.org/10.1029/JZ064i011p01665) was embedded within the CIR, contained the southward Bz and caused the magnetic storm. We hypothesize that a shrinking coronal hole and magnetic reconnection caused the formation and release of the jet.
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