A High Stellar Obliquity in the WASP-7 Exoplanetary System

Ian B. Thompson; Jeffrey D. Crane; Joshua N. Winn; Robert A. Wittenmyer; R. Paul Butler; Simon Albrecht; Stephen A Shectman; Teruyuki Hirano

arxiv: 1111.5016 · v1 · pith:ZNPYQPSMnew · submitted 2011-11-21 · 🌌 astro-ph.EP · astro-ph.SR

A High Stellar Obliquity in the WASP-7 Exoplanetary System

Simon Albrecht , Joshua N. Winn , R. Paul Butler , Jeffrey D. Crane , Stephen A Shectman , Ian B. Thompson , Teruyuki Hirano , Robert A. Wittenmyer This is my paper

classification 🌌 astro-ph.EP astro-ph.SR

keywords stellarplanetrotationaxisdifferentialeffecthighhosts

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We measure a tilt of 86+-6 deg between the sky projections of the rotation axis of the WASP-7 star, and the orbital axis of its close-in giant planet. This measurement is based on observations of the Rossiter-McLaughlin (RM) effect with the Planet Finder Spectrograph on the Magellan II telescope. The result conforms with the previously noted pattern among hot-Jupiter hosts, namely, that the hosts lacking thick convective envelopes have high obliquities. Because the planet's trajectory crosses a wide range of stellar latitudes, observations of the RM effect can in principle reveal the stellar differential rotation profile; however, with the present data the signal of differential rotation could not be detected. The host star is found to exhibit radial-velocity noise (``stellar jitter') with an amplitude of ~30m/s over a timescale of days.

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A comprehensive Rossiter-Mclaughlin Modelling Framework in TLCM: Application to HD 2685 $=$ TOI-135 system
astro-ph.EP 2026-06 unverdicted novelty 5.0

Updated RM modeling framework in TLCM validated on nine systems and applied to TOI-135 to measure sky-projected obliquity λ = 55.6° with ~11° uncertainties.