Litcius/Paper detail

On the Exoplanet Yield of Gaia Astrometry

Caleb Lammers, Joshua N. Winn

2025The Astronomical Journal14 citationsDOIOpen Access PDF

Abstract

Abstract We reexamine the expected yield of Gaia astrometric planet detections using updated models for giant-planet occurrence, the local stellar population, and Gaia’s demonstrated astrometric precision. Our analysis combines a semianalytic model that clarifies key scaling relations with more realistic Monte Carlo simulations. We predict 7500 ± 2100 planet discoveries in the 5 yr dataset (Data Release 4 (DR4)) and 120,000 ± 22,000 over the full 10 yr mission (Data Release 5 (DR5)), with the dominant error arising from uncertainties in giant-planet occurrence. We evaluate the sensitivity of these forecasts to the detection threshold and the desired precision for measurements of planet masses and orbital parameters. Roughly 1900 ± 540 planets in DR4 and 38,000 ± 7300 planets in DR5 should have masses and orbital periods determined to better than 20%. Most detections will be super-Jupiters (3–13 M J ) on 2–5 au orbits around GKM-type stars (0.4–1.3 M ⊙ ) within 500 pc. Unresolved binary stars will lead to spurious planet detections, but we estimate that genuine planets will outnumber them by a factor of 5 or more. An exception is planets around M dwarfs with a < 1 au, for which the false-positive rate is expected to be about 50%. To support community preparation for upcoming data releases, we provide mock catalogs of Gaia exoplanets and planet-impostor binaries. 1 1 https://github.com/CalebLammers/GaiaForecasts

Topics & Concepts

PhysicsExoplanetPlanetAstrometryAstronomyStarsAstrophysicsBinary numberSpurious relationshipOrbital elementsMonte Carlo methodScalingBinary starTerrestrial planetRadial velocityPlanetary systemOrbital periodStellar, planetary, and galactic studiesAstronomy and Astrophysical ResearchScientific Research and Discoveries