期刊
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
卷 502, 期 4, 页码 5856-5874出版社
OXFORD UNIV PRESS
DOI: 10.1093/mnras/stab482
关键词
asteroseismology; stars: interiors; stars: oscillations; stars: rotation; stars: variables:general
资金
- Research Foundation Flanders (FWO) [12ZB620N]
The relation of period spacing versus period of dipole prograde g modes can be used to measure rotation rates in rapidly rotating gamma Dor and slowly pulsating B stars. By fitting the observed dips in period, the differential rotation of the convective core from the surrounding g-mode cavity can be inferred.
The relation of period spacing (Delta P) versus period (P) of dipole prograde g modes is known to be useful to measure rotation rates in the g-mode cavity of rapidly rotating gamma Dor and slowly pulsating B (SPB) stars. In a rapidly rotating star, an inertial mode in the convective core can resonantly couple with g-mode propagative in the surrounding radiative region. The resonant coupling causes a dip in the P-Delta P relation, distinct from the modulations due to the chemical composition gradient. Such a resonance dip in Delta P of prograde dipole g modes appears around a frequency corresponding to a spin parameter 2f(rot)(cc)/nu(co-rot) similar to 8-11 with f(rot)(cc) being the rotation frequency of the convective core and nu(co-rot) the pulsation frequency in the co-rotating frame. The spin parameter at the resonance depends somewhat on the extent of core overshooting, central hydrogen abundance, and other stellar parameters. We can fit the period at the observed dip with the prediction from prograde dipole g modes of a main-sequence model, allowing the convective core to rotate differentially from the surrounding g-mode cavity. We have performed such fittings for 16 selected gamma Dor stars having well-defined dips, and found that the majority of gamma Dor stars we studied rotate nearly uniformly, while convective cores tend to rotate slightly faster than the g-mode cavity in less evolved stars.
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