2014ApJ...786...85J -
Astrophys. J., 786, 85 (2014/May-2)
Reevaluating the feasibility of ground-based earth-mass microlensing planet detections.
JUNG Y.K., PARK H., HAN C., HWANG K.-H., SHIN I.-G. and CHOI J.-Y.
Abstract (from CDS):
An important strength of the microlensing method to detect extrasolar planets is its high sensitivity to low-mass planets. However, many believe that microlensing detections of Earth-mass planets from ground-based observation would be difficult because of limits set by finite-source effects. This view comes from the previous estimation of planet detection probability based on the fractional deviation of planetary signals; however, a proper probability estimation is required when considering the source brightness, which is directly related to the photometric precision. In this paper, we reevaluate the feasibility of low-mass planet detections by considering photometric precision for different populations of source stars. From this, we find that the contribution of improved photometric precision to the planetary signal of a giant-source event is large enough to compensate for the decrease in magnification excess caused by finite-source effects. As a result, we conclude that giant-source events are suitable targets for Earth-mass planet detections with significantly higher detection probability than events involved with source stars of smaller radii, and we predict that Earth-mass planets could be detected by prospective high-cadence surveys.
Abstract Copyright:
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Journal keyword(s):
gravitational lensing: micro - planetary systems
Simbad objects:
2
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