Aschwanden, M. J., Wuelser, J. P., Nariaki, N. V., Lemen, J. R., Thompson, W. T
We generated an event catalog with an automated detection algorithm based on the entire EUVI image database observed with the two Solar Terrestrial Relations Observatory STEREO-A and -B spacecraft over the first six years of the mission (2006\,--\,2012). The event catalog includes the heliographic positions of some 20\,000 EUV events, transformed from spacecraft coordinates to Earth coordinates, and information on associated GOES flare events (down to the level of GOES A5-class flares). The 304 \ang\ wavelength turns out to be the most efficient channel for flare detection (79\,%), while the 171 \ang\ (4\,%), 195 \ang\ (10\,%), and the 284 \ang\ channel (7\,%) retrieve substantially fewer flare events, partially due to the suppressing effect of EUV dimming, and partially due to the lower cadence in the later years of the mission. Due to the Sun-circling orbits of STEREO-A and -B, a large number of flares have been detected on the farside of the Sun, invisible from Earth, or seen as partially occulted events. The statistical size distributions of EUV peak fluxes (with a power-law slope of $\alpha_P = 2.5\pm0.2$) and event durations (with a power-law slope of $\alpha_T=2.4\pm0.3$) are found to be consistent with the fractal-diffusive self-organized criticality model. The EUVI event catalog is available on-line \url{http://secchi.lmsal.com/EUVI/euvi__autodetection/euvi__events.txt} and may serve as a comprehensive tool to identify stereoscopically observed flare events for 3D reconstruction and to study occulted flare events.
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http://arxiv.org/abs/1306.3180
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