TY - JOUR
T1 - A high obliquity orbit for the hot-jupiter Hats-14b Transiting A 5400 K Star
AU - Zhou, G.
AU - Bayliss, D.
AU - Hartman, J. D.
AU - Fulton, B. J.
AU - Bakos, G. A.
AU - Howard, A. W.
AU - Isaacson, H.
AU - Marcy, G. W.
AU - Schmidt, B. P.
AU - Brahm, R.
AU - Jordán, A.
N1 - Publisher Copyright:
© 2015. The American Astronomical Society. All rights reserved.
PY - 2015/11/20
Y1 - 2015/11/20
N2 - We report a spin¡Vorbit misalignment for the hot-Jupiter HATS-14b, measuring a projected orbital obliquity of λ= 76 +4°-5° HATS-14b orbits a high metallicity, 5400 K G dwarf in a relatively short period orbit of 2.8 days. This obliquity was measured via the Rossiter¡VMcLaughlin effect, obtained with observations from Keck-HIRES. The velocities were extracted using a novel technique, optimized for low signal-to-noise spectra, achieving a high precision of 4 m s 1 - point-to-point scatter. However, we caution that our uncertainties may be underestimated. Due to the low rotational velocity of the star, the detection significance is dependent on thev i sin prior that is imposed in our modeling. Based on trends observed in the sample of hot Jupiters with obliquity measurements, it has been suggested that these planets modify the spin axes of their host stars, with an efficiency that depends on the stellar type and orbital period of the system. In this framework, short-period planets around stars with surface convective envelopes, like HATS-14b, are expected to have orbits that are aligned with the spin axes of their host stars. HATS-14b, however, is a significant outlier from this trend, challenging the effectiveness of the tidal realignment mechanism.
AB - We report a spin¡Vorbit misalignment for the hot-Jupiter HATS-14b, measuring a projected orbital obliquity of λ= 76 +4°-5° HATS-14b orbits a high metallicity, 5400 K G dwarf in a relatively short period orbit of 2.8 days. This obliquity was measured via the Rossiter¡VMcLaughlin effect, obtained with observations from Keck-HIRES. The velocities were extracted using a novel technique, optimized for low signal-to-noise spectra, achieving a high precision of 4 m s 1 - point-to-point scatter. However, we caution that our uncertainties may be underestimated. Due to the low rotational velocity of the star, the detection significance is dependent on thev i sin prior that is imposed in our modeling. Based on trends observed in the sample of hot Jupiters with obliquity measurements, it has been suggested that these planets modify the spin axes of their host stars, with an efficiency that depends on the stellar type and orbital period of the system. In this framework, short-period planets around stars with surface convective envelopes, like HATS-14b, are expected to have orbits that are aligned with the spin axes of their host stars. HATS-14b, however, is a significant outlier from this trend, challenging the effectiveness of the tidal realignment mechanism.
KW - planetary systems
KW - planets and satellites: individual (HATS-14b)
UR - http://www.scopus.com/inward/record.url?scp=84948747509&partnerID=8YFLogxK
U2 - 10.1088/2041-8205/814/1/L16
DO - 10.1088/2041-8205/814/1/L16
M3 - Article
AN - SCOPUS:84948747509
SN - 2041-8205
VL - 814
JO - Astrophysical Journal Letters
JF - Astrophysical Journal Letters
IS - 1
M1 - L16
ER -