Reconciling Power Law Slopes in Solar Flare and Nanoflare Size Distributions

Abstract

We unify the power laws of size distributions of solar flare and nanoflare energies. We present three models that predict the power law slopes αE of flare energies defined in terms of the 2-D and 3-D fractal dimensions (DA, DV): (i) The spatio-temporal standard SOC model, defined by the power law slope αE1=1+2/(DV+2)=(13/9)≈ 1.44; (ii) the 2-D thermal energy model, αE2=1+2/DA=(7/3)≈ 2.33, and (iii) the 3-D thermal energy model, αE3=1+2/DV=(9/5)≈ 1.80. The theoretical predictions of energies are consistent with the observational values of these three groups, i.e., αE1=1.47 0.07; αE2=2.38 0.09, and αE3=1.80 0.18. These results corroborate that the energy of nanoflares does not diverge at small energies, since (αE1<2) and (αE3<2), except for the unphyiscal 2-D model (αE2>2). This conclusion adds an additional argument against the scenario of coronal heating by nanoflares.