TY - JOUR
T1 - Discovery and Rossiter-McLauglin effect of exoplanet kepler-8b
AU - Jenkins...[et al.], Jon M.
AU - Borucki, W.J.
AU - Koch, D. G.
AU - Buchhave, Lars C. Astrup
PY - 2010/12/1
Y1 - 2010/12/1
N2 - We report on the discovery and the Rossiter-McLaughlin (R-M) effect of Kepler-8b, a transiting planet identified by the NASA Kepler Mission. Kepler photometry and Keck-HIRES radial velocities yield the radius and mass of the planet around this F8IV subgiant host star. The planet has a radius R P = 1.419 RJ and a mass MP = 0.60MJ, yielding a density of 0.26 gcm-3, one of the lowest planetary densities known. The orbital period is P = 3.523 days and the orbital semimajor axis is 0.0483+0.0006-0.0012 AU. The star has a large rotational vsini of 10.5 ± 0.7 kms-1 and is relatively faint (V ≈ 13.89 mag); both properties are deleterious to precise Doppler measurements. The velocities are indeed noisy, with scatter of 30 ms -1, but exhibit a period and phase that are consistent with those implied by transit photometry. We securely detect the R-M effect, confirming the planet's existence and establishing its orbit as prograde. We measure an inclination between the projected planetary orbital axis and the projected stellar rotation axis of λ = - 26°.4 ± 10°. 1, indicating a significant inclination of the planetary orbit. R-M measurements of a large sample of transiting planets from Kepler will provide a statistically robust measure of the true distribution of spin-orbit orientations for hot Jupiters around F and early G stars.
AB - We report on the discovery and the Rossiter-McLaughlin (R-M) effect of Kepler-8b, a transiting planet identified by the NASA Kepler Mission. Kepler photometry and Keck-HIRES radial velocities yield the radius and mass of the planet around this F8IV subgiant host star. The planet has a radius R P = 1.419 RJ and a mass MP = 0.60MJ, yielding a density of 0.26 gcm-3, one of the lowest planetary densities known. The orbital period is P = 3.523 days and the orbital semimajor axis is 0.0483+0.0006-0.0012 AU. The star has a large rotational vsini of 10.5 ± 0.7 kms-1 and is relatively faint (V ≈ 13.89 mag); both properties are deleterious to precise Doppler measurements. The velocities are indeed noisy, with scatter of 30 ms -1, but exhibit a period and phase that are consistent with those implied by transit photometry. We securely detect the R-M effect, confirming the planet's existence and establishing its orbit as prograde. We measure an inclination between the projected planetary orbital axis and the projected stellar rotation axis of λ = - 26°.4 ± 10°. 1, indicating a significant inclination of the planetary orbit. R-M measurements of a large sample of transiting planets from Kepler will provide a statistically robust measure of the true distribution of spin-orbit orientations for hot Jupiters around F and early G stars.
U2 - 10.1088/0004-637X/724/2/1108
DO - 10.1088/0004-637X/724/2/1108
M3 - Journal article
SN - 0004-637X
VL - 724
SP - 1108
EP - 1120
JO - Astrophysical Journal
JF - Astrophysical Journal
IS - 2
ER -