Predicting Photometric and Spectroscopic Signatures of Rings around Transiting Extrasolar Planets

Abstract

We present theoretical predictions for photometric and spectroscopic signatures of rings around transiting extrasolar planets. On the basis of a general formulation for the transiting signature in the stellar light curve and the velocity anomaly due to the Rossiter effect, we compute the expected signals analytically for a face-on ring system, and numerically for more general configurations. We study the detectability of a ring around a transiting planet located at a=3AU for a variety of obliquity and azimuthal angles, and find that it is possible to detect the ring signature both photometrically and spectroscopically unless the ring is almost edge-on (i.e., the obliquity angle of the ring θ is much less than unity). We also consider the detectability of planetary rings around a close-in planet, HD 209458b (θ≈ 90-i orbit ≈ 3.32), and Saturn (θ ≈ 26.7) as illustrative examples. While the former is difficult to detect with the current precision (photometric precision of 10-4 and radial velocity precision of 1 m/s), a marginal detection of the latter is possible photometrically. If the future precision of the radial velocity measurement reaches even below 0.1 m/s, they will be even detectable from the ground-based spectroscopic observations.

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