Multiple Subscale Magnetic Reconnection Embedded inside a Heliospheric Current Sheet Reconnection Exhaust: Evidence for Flux Rope Merging

T. D. Phan, J. F. Drake, D. Larson, M. Oieroset, S. Eriksson, Z. Yin, B. Lavraud, M. Swisdak, S. D. Bale, R. Livi, O. Romeo, P. Whittlesey, J. Halekas, A. Rahmati, M. Pulupa, A. Szabo, A. Koval, M. Moncuquet, J. Kasper, M. Stevens, M. Desai and N. Raouafi
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Abstract

We report observations of multiple subscale reconnecting current sheets embedded inside a large-scale heliospheric current sheet (HCS) reconnection exhaust. The discovery was made possible by the unusual skimming trajectory of Parker Solar Probe through a sunward-directed HCS exhaust, sampling structures convecting with the exhaust outflows for more than 3 hr during Encounter 14, at a radial distance of ∼17 solar radii. A large number of subscale current sheets (SCSs) were detected inside the HCS exhaust. Remarkably, five SCSs showed direct evidence for reconnection, displaying near-Alfvénic outflow jets and bifurcated current sheets. The reconnecting SCSs all had small magnetic shears (27°–81°), i.e., strong guide fields. The thickness of the subscale reconnecting current sheets ranged from ∼60 km to ∼5000 km (∼20–2000 ion inertial lengths). The SCS exhausts were directed predominantly in the normal or out-of-plane direction of the HCS, i.e., nearly orthogonal to the HCS exhaust direction. The presence of multiple low-magnetic-shear reconnecting current sheets inside a large-scale exhaust could be associated with coalescence of multiple large flux ropes inside the HCS exhaust. The orientation of some SCS exhausts was partly in the ecliptic plane of the HCS, which may indicate that the coalescence process is highly three-dimensional. Since the coalescence process is likely short-lived, the detection of five such events inside a single HCS crossing could imply the common occurrence of flux rope coalescence in large-scale HCS reconnection exhausts.
嵌入日光层电流片再连接排气中的多重次尺度磁再连接:通量绳合并的证据
我们报告了对嵌入大尺度日光层电流片(HCS)再连接排气中的多个次尺度再连接电流片的观测。帕克太阳探测器(Parker Solar Probe)在 "相遇14 "期间以不同寻常的掠过轨迹穿过一个向阳的HCS排气孔,在超过3小时的时间里对与排气孔外流对流的结构进行了取样,其径向距离为17个太阳半径。在高分辨率辐射计排气内部探测到了大量的亚尺度海流片(SCS)。值得注意的是,有五个 SCS 显示了重连接的直接证据,显示了近阿尔弗韦尼的流出喷流和分叉电流片。重新连接的 SCS 都具有小磁切(27°-81°),即强引导场。次尺度再连接电流片的厚度范围为 60 至 5000 千米(20 至 2000 个离子惯性长度)。SCS的排气方向主要是HCS的法线方向或平面外方向,即几乎与HCS的排气方向正交。大尺度排气孔内出现多个低磁剪切再连接电流片可能与HCS排气孔内多个大通量绳索的凝聚有关。一些SCS排气的方向部分位于HCS的黄道面,这可能表明凝聚过程是高度三维的。由于凝聚过程很可能是短暂的,因此在一次HCS穿越中探测到五个这样的事件可能意味着在大规模HCS再连接排气中普遍存在通量绳凝聚现象。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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