Sensitivity to habitable planets in the Roman microlensing survey

Abstract

We study the Roman sensitivity to exoplanets in the Habitable Zone (HZ). The Roman~efficiency for detecting habitable planets is maximized for three classes of planetary microlensing events with close caustic topologies. (a) The events with the lens distances of D l 7 kpc, the host lens masses of M h 0.6M. By assuming Jupiter-mass planets in the HZs, these events have q 0.001 and d 0.17 (q is their mass ratio and d is the projected planet-host distance on the sky plane normalized to the Einstein radius). The events with primary lenses, M h 0.1 M, while their lens systems are either (b) close to the observer with D l 1 kpc or (c) close to the Galactic bulge, D l 7 kpc. For Jupiter-mass planets in the HZs of the primary lenses, the events in these two classes have q 0.01, d 0.04. The events in the class (a) make larger caustics. By simulating planetary microlensing events detectable by Roman,~we conclude that the Roman~efficiencies for detecting Earth- and Jupiter-mass planets in the Optimistic HZs (OHZs, which is the region between [0.5,~2] AU around a Sun-like star) are 0.01\% and 5\%, respectively. If we assume that one exoplanet orbits each microlens in microlensing events detectable by Roman~( i.e., 27000 ),~this telescope has the potential to detects 35 exoplanets with the projected planet-host distances in the OHZs with only one having a mass 10M. According to the simulation, 27 of these exoplanets are actually in the OHZs.

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