Searching for GEMS: The Occurrence of Giant Planets orbiting M-dwarfs within 100 pc

Abstract

We present results from a systematic search for transiting short-period Giant Exoplanets around M-dwarf Stars (GEMS; P < 10 days, Rp 8~R) within a distance-limited 100 pc sample of 149,316 M-dwarfs using TESS-Gaia Light Curve (TGLC) data. We describe the development and application of the TESS-miner package and associated vetting procedures used in this analysis. To assess detection completeness, we conducted 72 million injection-recovery tests across 26,000 stars with an average of 3 sectors of data per star, subdivided into early-type (M0--M2.5), mid-type (M2.5--M4), and late-type (M4 or later) M-dwarfs. Our pipeline demonstrates high sensitivity across all subtypes within the injection bounds. We estimate the occurrence rates of short-period GEMS as a function of stellar mass, and combine our measured rates with those derived for FGK stars, fitting an exponential trend with stellar mass, consistent with core-accretion theory predictions. We find GEMS occurrence rates of 0.118\% 0.068\% for early-type M-dwarfs, 0.153\% 0.069\% for mid-type, and 0.036\% 0.024\% for late-type M-dwarfs, with a mean rate of 0.068\%0.024\% across the full sample. While our search spanned 1.0~days < P < 10.0 days, these rates were calculated using planets orbiting with 1.0~days < P < 5.0 days. This work establishes the basis for future occurrence rate studies of transiting GEMS.