Meso-scale photospheric convection during chromospheric fan-shaped surge on light bridge

Meso-scale photospheric convection during chromospheric fan-shaped surge on light bridge

Abstract Recently, intermittent and aperiodic fan-shaped chromospheric surges have attracted significant attention, though their related photospheric dynamic signals remain unclear. This study examines seven such surges and their potential photospheric signals along a light bridge (LB) in NOAA AR 12...

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Main Authors: Yuzong Zhang, Jun Zhang, Wenda Cao, Shuhong Yang, Yunfei Yang, Jiangtao Su, Reizaburo Kitai, Xinjie Mao, Ding Yuan, Xin Huang, Xiaoshuai Zhu, Chunlan Jin, Suo Liu, Qiao Song, Baolin Tan, Kaifan Ji
Format: Article
Language:English
Published: Springer 2025-04-01
Series:Discover Applied Sciences
Subjects:
Photosphere
Chromosphere
Sunspot
Light bridge
Grain
Dynamics
Online Access:https://doi.org/10.1007/s42452-025-06873-x
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Summary:Abstract Recently, intermittent and aperiodic fan-shaped chromospheric surges have attracted significant attention, though their related photospheric dynamic signals remain unclear. This study examines seven such surges and their potential photospheric signals along a light bridge (LB) in NOAA AR 12371 over a period of 100 min using BBSO/GST observations. Each surge displays as dark, jet-like structures with nearly uniform amplitudes, aligned closely along the LB to form a long smooth upper edge. Simultaneously, the photospheric LB exhibits dynamic grains, including bright points and granules. Adjacent grains brighten, expand, and merge into a ‘grain group’ (GG), which span LB’s cross-section. As GG moves along the LB, its leading edge develops an arched structure. During GG formation, the local horizontal magnetic field direction undergoes significant deflection. Within the 100-min interval, 10 GGs were recorded, occurring intermittently and aperiodically. Notably, three photospheric GG-free intervals corresponded to three chromospheric surge-free intervals, with a temporal delay (80–712 s) between GG reappearance and surge recurrence. Our findings suggest that meso-scale photospheric GGs, larger than individual granules but smaller than the full extent of the LB, are closely related to chromospheric surges. A conceptual model integrating inverse turbulent cascades and flux tube interactions is proposed, unifying multi-scale energy transfer from photospheric convection to chromospheric reconnection.
ISSN:3004-9261

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