Discovering long-period transiting exoplanets in the Roman GBTDS
Program ID 19105
Science Category Exoplanets & Exoplanet Formation
Program Type Analysis
Category Small
Principal Investigator Amy Tuson
PI Institution University of Maryland, Baltimore County
Co-Investigators
  • Alison Duck (Jet Propulsion Laboratory)
  • Sergio Fajardo-Acosta (California Institute of Technology / IPAC)
  • Eamonn Kerins (University of Manchester)
  • Dana Louie (Catholic University of America)
  • Jorge Martinez-Palomera (University of Maryland, Baltimore County)
  • Benjamin Montet (University of New South Wales)
  • Susan Mullally (Space Telescope Science Institute / STScI)
  • Matthew Penny (Louisiana State University)
  • Elisa Quintana (NASA Goddard Space Flight Center)
  • Robert Wilson (University of Maryland, College Park)
Abstract The Roman Galactic Bulge Time Domain Survey (GBTDS) is predicted to discover ~100,000 transiting exoplanets. About 20% of these will belong to long-period (> 70 days) planets and have at most one observed transit per season. These long-period transiting planets overlap in parameter space with the discoveries that will be made by the microlensing method, allowing for a direct comparison of the demographics inferred from the two populations. However, traditional transit search methods are less sensitive to single transits and they will therefore go undetected without a dedicated search effort. We propose to develop a specialized pipeline to discover, vet and model single transits in the Roman GBTDS. We will run our pipeline on ~6.3M bright (F146 less than 19 mag) FGK stars from season one and expect to discover ~1000 single transits belonging to long-period planets. We will release a catalog of single transit events and deliver a software package to facilitate future single transit searches by the community. This work will ensure that Roman reaches its full potential for transiting exoplanet science.