The Internal Rotation Profile of the B-Type Star Kic 10526294 From Frequency Inversion of Its Dipole Gravity Modes

Triana, S. A.; Moravveji, E.; Pápics, P. I.; Aerts, C.; Kawaler, S. D.; Christensen‐Dalsgaard, J.

doi:10.1088/0004-637x/810/1/16

Cited by 101 publications

(141 citation statements)

References 42 publications

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“…In the last few years, we have begun to observe with asteroseismology the internal radial rotation profiles of stars from hydrogen-burning main-sequence phases Pápics et al 2015;Saio et al 2015;Schmid et al 2015;Triana et al 2015), through to subgiant and red giant phases (Beck et al 2012;Mosser et al 2012;Deheuvels et al 2012Deheuvels et al , 2014Deheuvels et al , 2015, and even on to the late evolutionary stages of subdwarf B stars (Van Grootel et al 2009) and white dwarfs ).…”

Section: Introductionmentioning

confidence: 99%

Near-uniform internal rotation of the main-sequence γ Doradus pulsator KIC 7661054

Murphy

Fossati

Bedding

et al. 2016

Mon. Not. R. Astron. Soc.

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We used Kepler photometry to determine the internal rotation rate of KIC 7661054, a chemically normal γ Dor star on the main sequence at spectral type F2.5 V. The core rotation period of 27.25 ± 0.06 d is obtained from the rotational splittings of a series of dipole g modes. The surface rotation period is calculated from a spectroscopic projected rotation velocity and a stellar radius computed from models. Literature data, obtained without inclusion of macroturbulence as a line-broadening mechanism, imply that the surface rotates much more quickly than the core, while our detailed analysis suggests that the surface may rotate slightly more quickly than the core and that the rotation profile is uniform within the 1-σ uncertainties. We discuss the pitfalls associated with the determination of surface rotation rates of slow rotators from spectroscopy in the absence of asteroseismic constraints. A broad signal is observed at low frequency, which we show cannot be attributed to rotation, contrary to previous suggestions concerning the origin of such signals.

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Section: Introductionmentioning

confidence: 99%

Near-uniform internal rotation of the main-sequence γ Doradus pulsator KIC 7661054

Murphy

Fossati

Bedding

et al. 2016

Mon. Not. R. Astron. Soc.

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“…Kurtz et al (2014) found a pulsating F-type star which showed evidence of an envelope rotating faster than interior, in contrast to what we see in the Sun. Moreover, Triana et al (2015) measured the core rotation of a young B-type star where a counter-rotating core and envelope configuration appear the most likely scenario.…”

Section: Radial Differential Rotationmentioning

confidence: 99%

Differential Rotation in Sun-like Stars from Surface Variability and Asteroseismology

Nielsen

2017

Springer Theses

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“…Interior rotation properties have been deduced for hydrogen-burning main-sequence phases (Kurtz et al 2014, Saio et al 2015, Triana et al 2015, Murphy et al 2016, Schmid & Aerts 2016) subgiant and red giant phases (Beck et al 2012, Mosser 2012, Deheuvels et al 2012, Deheuvels et al 2014, Deheuvels et al 2015, and the late evolutionary stages of subdwarf B stars (Van Grootel et al 2009) and white dwarfs (Charpinet et al 2009). …”

Section: Angular Momentum Transportmentioning

confidence: 99%

Starquakes spring stellar surprises

Kurtz

Jeffrey

Aerts

2016

A&G

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The Internal Rotation Profile of the B-Type Star Kic 10526294 From Frequency Inversion of Its Dipole Gravity Modes

Cited by 101 publications

References 42 publications

Near-uniform internal rotation of the main-sequence γ Doradus pulsator KIC 7661054

Near-uniform internal rotation of the main-sequence γ Doradus pulsator KIC 7661054

Differential Rotation in Sun-like Stars from Surface Variability and Asteroseismology

Starquakes spring stellar surprises

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