| Title: |
Reconnection Fluxes in Eruptive and Confined Flares and Implications for Superflares on the Sun. |
| Authors: |
Johannes Tschernitz1 johannes.tschernitz@edu.uni-graz.at, Astrid M. Veronig1,2 astrid.veronig@uni-graz.at, Julia K. Thalmann1 julia.thalmann@uni-graz.at, Jürgen Hinterreiter1 juergen.hinterreiter@edu.uni-graz.at, Werner Pötzi2 werner.poetzi@uni-graz.at |
| Source: |
Astrophysical Journal. 1/20/2018, Vol. 853 Issue 1, p1-1. 1p. |
| Subject Terms: |
*SOLAR flares, *CATACLYSMIC variable stars, *SUPERNOVAE, *SUPERGIANT stars, *SOLAR magnetic fields |
| Abstract: |
We study the energy release process of a set of 51 flares (32 confined, 19 eruptive) ranging from GOES class B3 to X17. We use Hα filtergrams from Kanzelhöhe Observatory together with Solar Dynamics Observatory HMI and Solar and Heliospheric Observatory MDI magnetograms to derive magnetic reconnection fluxes and rates. The flare reconnection flux is strongly correlated with the peak of the GOES 1–8 Å soft X-ray flux (c = 0.92, in log–log space) for both confined and eruptive flares. Confined flares of a certain GOES class exhibit smaller ribbon areas but larger magnetic flux densities in the flare ribbons (by a factor of 2). In the largest events, up to ≈50% of the magnetic flux of the active region (AR) causing the flare is involved in the flare magnetic reconnection. These findings allow us to extrapolate toward the largest solar flares possible. A complex solar AR hosting a magnetic flux of 2 × 1023 Mx, which is in line with the largest AR fluxes directly measured, is capable of producing an X80 flare, which corresponds to a bolometric energy of about 7 × 1032 erg. Using a magnetic flux estimate of 6 × 1023 Mx for the largest solar AR observed, we find that flares of GOES class ≈X500 could be produced (Ebol ≈ 3 × 1033 erg). These estimates suggest that the present day’s Sun is capable of producing flares and related space weather events that may be more than an order of magnitude stronger than have been observed to date. [ABSTRACT FROM AUTHOR] |
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| Database: |
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