The State of Self-Organized Criticality of the Sun During the Last 3 Solar Cycles. I. Observations

Abstract

We analyze the occurrence frequency distributions of peak fluxes P, total fluxes E, and durations T of solar flares over the last three solar cycles (during 1980--2010) from hard X-ray data of HXRBS/SMM, BATSE/CGRO, and RHESSI. From the synthesized data we find powerlaw slopes with mean values of αP=1.720.08 for the peak flux, αE=1.600.14 for the total flux, and αT=1.980.35 for flare durations. We find a systematic anti-correlation of the powerlaw slope of peak fluxes as a function of the solar cycle, varying with an approximate sinusoidal variation αP(t)=α0+ α [2π (t-t0)/Tcycle], with a mean of α0=1.73, a variation of α =0.14, a solar cycle period Tcycle=12.6 yrs, and a cycle minimum time t0=1984.1. The powerlaw slope is flattest during the maximum of a solar cycle, which indicates a higher magnetic complexity of the solar corona that leads to an overproportional rate of powerful flares.