| Abstract |
The Galactic Bulge Time Domain Survey (GBTDS) will deliver hundreds of millions of near-infrared light curves spanning diverse Galactic stellar populations. Simulations predict these data will yield approximately 100,000 transiting exoplanets, establishing the Nancy Grace Roman Space Telescope as the most prolific planet-hunting observatory in history. The proposed work would enable the community to fully realize this potential through rapidly-delivered, uniformly generated, and statistically robust data products. Our work plan consists of two primary efforts. First, following each high-cadence season, we will search up to 100 million light curves for sources with F146<22 and deliver data releases within approximately three months of the season ending. These releases will include high-quality planet candidate catalogs, stellar parameters for all analyzed stars, and a supplementary catalog of systems with modeled secondary eclipses and phase curves, enabling rapid data access to the scientific community. Second, after the third high-cadence season, we will perform a uniform analysis across the full two-year dataset and produce a final data release with the complete suite of products required for performing reproducible exoplanet demographics studies. These include measurements of our pipeline detection efficiency, catalog false alarm rates from instrumental systematics and stellar variability, and our pipeline's rejection efficiency for astrophysical false positives. By providing a centralized, well-characterized planet candidate catalog and data products needed for large scale statistical analysis, this effort will maximize scientific return while avoiding the computational cost and inconsistency of several independent large-scale transit searches. |