L. L. A. de Oliveira scite author profile

Rapidly rotating giant stars are relatively rare and may represent important stages of stellar evolution, resulting from stellar coalescence of close binary systems or accretion of sub-stellar companions by their hosting stars. In the present letter we report 17 giant stars observed in the scope of the Kepler space mission exhibiting rapid rotation behavior. For the first time the abnormal rotational behavior for this puzzling family of stars is revealed by direct measurements of rotation, namely from photometric rotation period, exhibiting very short rotation period with values ranging from 13 to 55 days. This finding points for remarkable surface rotation rates, up to 18 times the Sun rotation. These giants are combined with 6 other recently listed in the literature for mid-IR diagnostic based on WISE information, from which a trend for an infrared excess is revealed for at least a half of the stars, but at a level far lower than the dust excess emission shown by planet-bearing main-sequence stars.

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Igualdade nas relações de gênero na sociedade do capital: limites, contradições e avanços

Santos

Oliveira

2010

Rev. katálysis

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Este artigo aborda a problemática de gênero no limiar da sociedade capitalista. Apresenta, no tratamento histórico dessa questão, o movimento feminista como sujeito político central na busca por igualdade nas relações de gênero. Discute os limites e as possibilidades que podem ser identificados nesse processo de luta, de conquistas e de desafios que se renovam constantemente. Entende que a igualdade de gênero precisa ser situada junto à totalidade das relações sociais envolvendo todos os sujeitos afetados pela ofensiva do capital, cujo princípio básico é a desigualdade.

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Rotation period distribution of CoRoT andKeplerSun-like stars

Leão

Pasquini

Lopes

et al. 2015

A&A

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Aims. We study the distribution of the photometric rotation period (P rot ), which is a direct measurement of the surface rotation at active latitudes, for three subsamples of Sun-like stars: one from CoRoT data and two from Kepler data. For this purpose, we identify the main populations of these samples and interpret their main biases specifically for a comparison with the solar P rot . Methods. P rot and variability amplitude (A) measurements were obtained from public CoRoT and Kepler catalogs, which were combined with public data of physical parameters. Because these samples are subject to selection effects, we computed synthetic samples with simulated biases to compare with observations, particularly around the location of the Sun in the Hertzsprung-Russel (HR) diagram. Publicly available theoretical grids and empirical relations were used to combine physical parameters with P rot and A. Biases were simulated by performing cutoffs on the physical and rotational parameters in the same way as in each observed sample. A crucial cutoff is related with the detectability of the rotational modulation, which strongly depends on A. Results. The synthetic samples explain the observed P rot distributions of Sun-like stars as having two main populations: one of young objects (group I, with ages younger than ∼1 Gyr) and another of main-sequence and evolved stars (group II, with ages older than ∼1 Gyr). The proportions of groups I and II in relation to the total number of stars range within 64-84% and 16-36%, respectively. Hence, young objects abound in the distributions, producing the effect of observing a high number of short periods around the location of the Sun in the HR diagram. Differences in the P rot distributions between the CoRoT and Kepler Sun-like samples may be associated with different Galactic populations. Overall, the synthetic distribution around the solar period agrees with observations, which suggests that the solar rotation is normal with respect to Sun-like stars within the accuracy of current data.

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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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L. L. A. de Oliveira

KEPLER RAPIDLY ROTATING GIANT STARS

Igualdade nas relações de gênero na sociedade do capital: limites, contradições e avanços

Rotation period distribution of CoRoT andKeplerSun-like stars

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

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