On-disk Observation of Bidirectionally Propagating Plasma Blobs Near the Reconnection Site of a Solar Eruption

Zhenyong Hou; Hui Tian; Maria Madjarska; Hechao Chen; Tanmoy Samanta; Xianyong Bai; Zhentong Li; Yang Su; Wei Chen; Yuanyong Deng

doi:https://doi.org/10.5194/egusphere-egu24-1998

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EGU24-1998, updated on 08 Mar 2024

https://doi.org/10.5194/egusphere-egu24-1998

EGU General Assembly 2024

© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

On-disk Observation of Bidirectionally Propagating Plasma Blobs Near the Reconnection Site of a Solar Eruption

Zhenyong Hou¹, Hui Tian¹, Maria Madjarska², Hechao Chen³, Tanmoy Samanta⁴, Xianyong Bai⁵, Zhentong Li⁶, Yang Su⁶, Wei Chen⁶, and Yuanyong Deng⁵

Zhenyong Hou et al.

¹Peking University, School of Earth and Space Sciences, China (zhenyonghou@pku.edu.cn; huitian@pku.edu.cn)
²Max Planck Institute for Solar System Research, Germany (mariamadj@gmail.com)
³Yunnan University, China (hechao.chen@ynu.edu.cn)
⁴Indian Institute of Astrophysics, India, (tanmoy.samanta@iiap.res.in)
⁵Chinese Academy of Sciences, China (xybai@bao.ac.cn; dyy@nao.cas.cn)
⁶Purple Mountain Observatory, China (ztli@pmo.ac.cn; yang.su@pmo.ac.cn; w.chen@pmo.ac.cn)

Current sheet is a commonly observed structure involved in solar eruptions. However, the physical properties of its fine structures during a solar eruption are rarely investigated. Here, we report an on-disk observation that displays 139 compact, circular or elliptic bright structures, presumably plasma blobs, propagating bidirectionally along a plasma sheet during a period of about 24 minutes around the peak time of an eruptive flare. From extreme ultraviolet images, we distinguish a plasma sheet connecting the flare loops and the erupting filament. The average width, duration, and projected velocities of these blobs are about 1.7±0.5 Mm, 73±54 s, and 190±81 km/s, respectively. The reconnection site rises with an average velocity of about 51 km/s. We have obtained the temporal variation of the blob number during the solar eruption, which is similar to that of the GOES X-ray flux. The observational results suggest that plasmoid instability plays an important role in the energy release process of solar eruptions.

How to cite: Hou, Z., Tian, H., Madjarska, M., Chen, H., Samanta, T., Bai, X., Li, Z., Su, Y., Chen, W., and Deng, Y.: On-disk Observation of Bidirectionally Propagating Plasma Blobs Near the Reconnection Site of a Solar Eruption, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-1998, https://doi.org/10.5194/egusphere-egu24-1998, 2024.

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