Starspot distribution and flare events in two young low-mass stars using TESS data

Abstract

Wide-field high-precision photometric observations such as Transiting Exoplanet Survey Satellite (TESS) allowed the investigation of the stellar magnetic activity of cool stars. M-dwarf's starspots and stellar flares are the main indicators of magnetic activity. The present study focuses on modeling light curves (LCs) to analyze the distribution and characteristics of starspots e.g., location, temperature, and spot size. The TESS light curves of two selected young M-dwarfs i.e. GJ~182 and 2MASS~J05160212+2214528 were reconstructed using the BASSMAN software, obtaining a three-spot model for GJ~182 and two-spot model for 2MASS~J05160212+2214528, describing their light curves. For GJ~182, the mean spot temperature was estimated to be approximately 3279~K, covering 5-8.5\% of the stellar surface while for 2MASS~J05160212+2214528 the average spot temperature was approximately 2631~K, with a mean spottedness of about 5.4\%. Using the 2-min cadence LC data, we identified and analyzed 48 flare events from GJ~182, while no flares were detected in 2MASS~J05160212+2214528. The estimated bolometric flare energy ranged from 1032 - 1035 erg, and 1031 - 1033 erg in the TESS bandpass. We derived the power-law index of -1.53 0.12 and -1.86 0.22 for flare frequency distribution in sectors 5 and 32 respectively in the flare energy 1033 to 1035 erg, consistent with previous studies for M-dwarfs. A positive linear correlation between flare energy and duration was found with a slope of 0.67 0.02, suggesting a similar mechanism followed by stellar superflares and solar flares. By assuming the similarities with solar flares, we also estimated the lower limit of the magnetic field strength around 12 - 232~G to produce such superflare events.

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