Fast optical flares from M dwarfs detected by a one-second-cadence survey with Tomo-e Gozen

Abstract

We report a one-second-cadence wide-field survey for M-dwarf flares using the Tomo-e Gozen camera mounted on the Kiso Schmidt telescope. We detect 22 flares from M3-M5 dwarfs with rise times and amplitudes ranging from 5\, sec trise 100\,sec and 0.5 F/F 20, respectively. The flare light curves mostly show steeper rises and shallower decays than those obtained from the Kepler one-minute cadence data and tend to have flat peak structures. Assuming a blackbody spectrum with temperatures of 9,000-15,000\,K, the peak luminosities and bolometric energies are estimated to be 1029\,erg\,sec-1 Lpeak 1031\,erg\,sec-1 and 1031\,erg E bol 1034\,erg, which constitutes the bright end of fast optical flares for M dwarfs. We confirm that more than 90\% of the host stars of the detected flares are magnetically active based on their Hα emission line intensities obtained by LAMOST. The estimated occurrence rate of the detected flares is 0.7 per day per an active star, indicating they are common in magnetically active M dwarfs. We argue that the flare light curves can be explained by the chromospheric compression model; the rise time is broadly consistent with the Alfv\'en transit time of a magnetic loop with a length scale of lloop 104\,km and a field strength of 1,000\,G, while the decay time is likely determined by the radiative cooling of the compressed chromosphere down to near the photosphere with a temperature of 10,000\,K. These flares from M dwarfs could be a major contamination source for a future search of fast optical transients of unknown types.