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On the nature of photospheric horizontal magnetic field increase in major solar flares

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arxiv 2207.12044 v1 pith:WMCNT6WR submitted 2022-07-25 astro-ph.SR physics.space-ph

On the nature of photospheric horizontal magnetic field increase in major solar flares

classification astro-ph.SR physics.space-ph
keywords increaseflareflaresfieldphotosphericribbonschangecontraction
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Rapid increase of horizontal magnetic field ($B_h$) around the flaring polarity inversion line is the most prominent photospheric field change during flares. It is considered to be caused by the contraction of flare loops, the details behind which is still not fully understood. Here we investigate the $B_h$-increase in 35 major flares using HMI high-cadence vector magnetograms. We find that $B_h$-increase is always accompanied by the increase of field inclination. It usually initiates near the flare ribbons, showing step-like change in between the ribbons. In particular, its evolution in early flare phase shows close spatio-temporal correlation to flare ribbons. We further find that $B_h$-increase tends to have similar intensity in confined and eruptive flares, but larger spatial-extent in eruptive flares in a statistical sense. Its intensity and timescale have inverse and positive correlations to the initial ribbon separations, respectively. The results altogether are well consistent with a recent proposed scenario which suggests that the reconnection-driven contraction of flare loops enhances photospheric $B_h$ according to the ideal induction equation, providing statistical evidence to the reconnection-driven origin for $B_h$-increase for the first time.

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