Nanoflare Distributions Over Solar Cycle 23 Based on AIA/SDO DEM Analysis Tuesday, 7 September 2021 10:18 (13 Minutes)

Nanoflare Distributions Over Solar Cycle 23 Based on AIA/SDO DEM Analysis Tuesday, 7 September 2021 10:18 (13 Minutes)

16th European Solar Physics Meeting Contribution ID: 435 Type: Poster Nanoflare distributions over solar cycle 23 based on AIA/SDO DEM analysis Tuesday, 7 September 2021 10:18 (13 minutes) We study the energy distributions of nanoflares in quiet Sun regions, using Differential Emission Measure (DEM) analysis of observations from the 6 EUV filters of the Atmospheric Imaging Assembly (AIA) onboard the Solar Dynamics Observatory (SDO). In total, we analyzed 30 sets of AIA/SDO image series distributed evenly between the years 2011 and 2018 to characterize the nanoflare frequency distribution and their contribution to coronal heating throughout different levels of solar activity during solar cycle 23. Each series coversa 00 00 400 × 400 field-of-view close to disc center over an observation time of two hours at the full AIAcadence of 12 seconds. DEM analysis was used to derive the emission measure and temperature evolution for each pixel. The nanoflare frequency distribution was then extracted from the DEM results for each datasetbya threshold-based algorithm developed for the AIA data characteristics. We find that the combined nanoflare frequencies follow a power-law distribution with a power-law index α = 2:3 that covers five orders of magnitude in event energies (1023 to 1028 erg). The power-law index obtained from individual data sets shows only minimal variation over the multi-year period and no significant correlation to solar activity. The steep slope (α > 2) suggests that the dominant energy contribution resides in the small flare events (nanoflares). However, we find that the combined energy flux from all thedetected events is at least an order of magnitude too small to account for the heating requirement of the solar corona. Primary authors: Mr PURKHART, Stefan; Prof. VERONIG, Astrid (Kanzelhöhe Observatory for Solar and Environmental Research & Institute of Physics, University of Graz) Presenter: Mr PURKHART, Stefan Session Classification: Poster Session 3.3 Track Classification: Session 2 - The Solar Atmosphere: Heating, Dynamics and Coupling.

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