EvryFlare I: Long-term Evryscope Monitoring of Flares from the Cool Stars Across Half the Southern Sky

Ward S. Howard, Hank Corbett, Nicholas M. Law, Jeffrey K. Ratzloff, Amy L. Glazier, Octavi Fors, Daniel del Ser, Joshua Haislip

Published 2019-04-23Version 1

We search for superflares from 4,068 cool stars in over 2 years of Evryscope photometry, focusing on those with high-cadence data obtained by both Evryscope and TESS. The Evryscope array of small telescopes observed 576 large flares from 285 flare stars, with a median energy of 10^34.0 erg. Since 2016, Evryscope has enabled the detection of rare events from all stars observed by TESS through multi-year, high-cadence continuous observing. We report ~2X the previous largest number of 10^34 erg flares observed from nearby cool stars at high cadence. We find 8 flares that increased the stellar brightness by at least 3 g' magnitudes, with the largest flare reaching 5.6 magnitudes and releasing 10^36.2 erg. We also observe a 10^34 erg superflare from TOI-455, a mid-M star with a rocky planet candidate. We measure or constrain the annual superflare rate of each flare star, and explore the dependence of superflare occurrence upon stellar age and spectral type. We estimate the average flare behavior of active stars as a function of spectral type, including superflare rates, flare frequency distributions, and typical flare amplitudes in g'. We also observe an apparent decrease in large flares at high galactic latitudes. We explore the effects our super-flaring stars may have on ozone loss to planetary atmospheres: we observe 1 superflare with sufficient energy in the UV to photo-dissociate all ozone in an Earth-like atmosphere in a single event, and 24 other superflares that reach at least 10% of this energy. We also find 17 stars that may deplete an Earth-like atmosphere via repeated flaring; these emit at least 1 flare of 10^34 erg every 10 d. Of the 1690 stars around which TESS may discover temperate rocky planets, we observe 49 to exhibit large flares.