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Turbulent magnetic reconnection is believed to occur in astrophysical plasmas, and it has been suggested to be a trigger of solar flares. It often occurs in long stretched and fragmented current sheets. Recent observations by the Parker Solar Probe, the Solar Dynamics Observatory and in situ satellite missions agree with signatures expected from turbulent reconnection. However, the underlying mechanisms, including how magnetic energy stored in the Sun s magnetic field is dissipated, remain unclear. Here we demonstrate turbul ...
Ping, Yongli; Zhong, Jiayong; Wang, Xiaogang; Han, Bo; Sun, Wei; Zhang, Yapeng; Yuan, Dawei; Xing, Chunqing; Wang, Jianzhao; Liu, Zhengdong; Zhang, Zhe; Qiao, Bin; Zhang, Hua; Li, Yutong; Zhu, Jianqiang; Zhao, Gang; Zhang, Jie;
Published by: Nature Physics Published on: feb
YEAR: 2023   DOI: 10.1038/s41567-022-01855-x
By assuming that the solar wind flow is spherically symmetric and that the flow speed becomes constant beyond some critical distance r = R 0 (neglecting solar gravitation and acceleration by high coronal temperature), the large-scale solar wind magnetic field lines are distorted into a Parker spiral configuration, which is usually simplified to an Archimedes spiral. Using magnetic field observations near Mercury, Venus, and Earth during solar maximum of Solar Cycle 24, we statistically surveyed the Parker spira ...
Published by: The Astrophysical Journal Published on: 10/2019
YEAR: 2019   DOI: 10.3847/1538-4357/ab412a