Y. S. Messias scite author profile

The high quality light curves from the Transiting Exoplanet Survey Satellite (TESS) represent a unique laboratory for the study of stellar rotation, a fundamental observable driving stellar and planetary evolution, including planetary atmospheres and impacting on habitability conditions and the genesis of life around stars. As of April 14th 2020, this mission delivered public light curves for 1000 TESS Objects of Interest (TOIs), observed with 2 minute cadence during the first 20 months of the mission. Here, we present a search for rotation signatures in these TOIs, using Fast Fourier Transform, Lomb-Scargle, and wavelet techniques, accompanied by a rigorous visual inspection.

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A search for rotation periods in 1000 TESS objects of interest

Martins¹,

Gomes²,

Messias³

et al. 2020

Preprint

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Rotation Signature of TESS B-type Stars. A Comprehensive Analysis

Barraza

Gomes

Messias

et al. 2022

ApJ

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Stellar rotation is a fundamental observable that drives different aspects of stellar and planetary evolution. In this work, we present an unprecedented manifold analysis of 160 B-type stars with light curves collected by the TESS space mission using three different procedures (fast Fourier transform, Lomb–Scargle, and wavelet techniques), accompanied by rigorous visual inspection in the search for rotation periodicities. This effort provides rotational periodicities for 6 new TESS B-type stars and confirmed periodicities for 22 targets with rotation periods previously listed in the literature. For the other 61 stars, already classified as possible rotational variables, we identify noisy, pulsational, binarity, or ambiguous variability behavior rather than rotation signatures. The total sample of 28 potential rotators shows an overlap of different classes of rotational variables, composed of α 2 Canum Venaticorum, rotating ellipsoidal, and SX Arietis stars. The combination of the three techniques applied in our analysis offers a solid path to overcome the challenges in the discrimination of rotation from other variabilities in stellar light curves, such as pulsation, binarity, or other effects that have no physical meaning. Finally, the rotational periodicities reported in the present study may represent important constraints for improving stellar evolution models with rotation, as well as asteroseismic studies of hot stars.

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A Dearth of Close-in Planets around Rapidly Rotating Stars or a Dearth of Data?

Messias

Oliveira

Gomes

et al. 2022

ApJL

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A dearth of close-in planets orbiting rapid rotators was reported almost a decade ago. According to this view, only slowly spinning stars with rotation periods longer than 5–10 days would host planets with orbital periods shorter than 2 or 3 days. This Letter brings an enlarged and more detailed analysis that led us to the question: Is there really a dearth in that distribution or is it a dearth of data? For this new analysis, we combined different samples of Kepler and TESS stars with confirmed planets or planet candidates with measured stellar rotation periods, using Gaia data to perform an in-depth selection of 1013 planet-hosting main-sequence stars. With the newer, enlarged, and more refined data, the reported dearth of close-in planets orbiting rapid rotators tends to disappear, thus suggesting that it may reflect a scarcity of data in the prior analysis. A two-sample statistical test strongly supports our results, showing that the distribution of close-in planets orbiting rapid rotators is almost indistinguishable from that for close-in planets orbiting slow rotators.

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Y. S. Messias

A Search for Rotation Periods in 1000 TESS Objects of Interest

A search for rotation periods in 1000 TESS objects of interest

Rotation Signature of TESS B-type Stars. A Comprehensive Analysis

A Dearth of Close-in Planets around Rapidly Rotating Stars or a Dearth of Data?

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