No Large Dependence of Planet Frequency on Galactocentric Distance


الملخص بالإنكليزية

Gravitational microlensing is currently the only technique that helps study the Galactic distribution of planets as a function of distance from the Galactic center. The Galactic location of a lens system can be uniquely determined only when at least two of the three quantities that determine the mass--distance relations are measured. However, even if only one mass--distance relation can be obtained, a large sample of microlensing events can be used to statistically discuss the Galactic distribution of the lenses. In this study, we extract the Galactic distribution of planetary systems from the distribution of the lens-source proper motion, $mu_{rm rel}$, for a given Einstein radius crossing time, $t_{rm E}$, measured for the 28 planetary events in the statistical sample by Suzuki et al. (2016). Because microlensing is randomly caused by stars in our Galaxy, the observational distribution can be predicted using a Galactic model. We incorporate the planet-hosting probability, $P_{rm host} propto M_{rm L}^m R_{rm L}^r$, into a Galactic model for random-selected stars, where $M_{rm L}$ is the lens mass ($sim$ host mass), and $R_{rm L}$ is the Galactocentric distance. By comparing the observed distribution with the model-predicted $mu_{rm rel}$ distribution for a given $t_{rm E}$ at various combinations of $(m ,r)$, we obtain an estimate $r = 0.2 pm 0.4$ under a plausible uniform prior for $m$ of $0<m<2$. This indicates that the dependence of the planet frequency on the Galactocentric distance is not large, and suggests that the Galactic bulge does have planets.

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