Showing 1–20 of 21 results
/ Date/ Name
Jan 22, 2020Stellar rotation periods from K2 Campaigns 0-18 -- Evidence for rotation period bimodality and simultaneous variability decreaseAug 8, 2023New rotation period measurements of 67,163 Kepler starsJun 10, 2013A fast and reliable method to measure stellar differential rotation from photometric dataJan 27, 2021Where have all the solar-like stars gone? Rotation period detectability at various inclinations and metallicitiesAug 7, 2013Rotation and differential rotation of active Kepler starsDec 10, 2010Kepler light curves and stellar rotational periodsSep 26, 2022Measuring periods in aperiodic light curves -- Applying the GPS method to infer rotation periods of solar-like starsMay 9, 2017Evidence for photometric activity cycles in 3203 Kepler starsJul 28, 2015Rotation, differential rotation, and gyrochronology of active Kepler starsJul 24, 2020The Evolution of Rotation and Magnetic Activity in 94 Aqr Aa from Asteroseismology with TESSMay 4, 2020The Sun is less active than other solar-like starsAug 2, 2021Magnetic and Rotational Evolution of $ρ$ CrB from Asteroseismology with TESSSep 28, 2022Superflares on solar-like stars: A new method for identifying the true flare sources in photometric surveysMay 6, 2020Solar-type Stars Observed by LAMOST and KeplerFeb 24, 2025Detectability of Solar Rotation Period Across Various WavelengthsDec 16, 2024Sun-like stars produce superflares roughly once per centuryJun 8, 2024The PLATO MissionJan 30, 2015A method to discriminate solar and antisolar differential rotation in high-precision light curvesJul 9, 2020Reply to the comment of T. Metcalfe and J. van Saders on the Science report "The Sun is less active than other solar-like stars"Oct 26, 2018Transition from spot to faculae domination -- An alternate explanation for the dearth of intermediate \textit{Kepler} rotation periods