Accurate p-mode measurements of the G0V metal-rich CoRoT target HD 52265
Auvergne, M.; Baudin, F.; García, R. A.; Chaplin, W. J.; Michel, E.; Baglin, A.; Catala, C.; Samadi, R.; Mosser, B.; Elsworth, Y.; Vauclair, G.; Appourchaux, T.; Mathur, S.; Gizon, L.; Bruntt, H.; Benomar, O.; Deheuvels, S.; Verner, G. A.; Ballot, J.; Régulo, C.; Roxburgh, I. W.; Salabert, D.; Campante, T. L.; Dolez, N.; Vauclair, S.; Creevey, O.; Bazot, M.; Gaulme, P.; Stahn, T.; Sato, K. H.
France, Germany, Australia, United Kingdom, Denmark, Portugal, United States, Spain
Abstract
Context. The star
Aims: We characterise HD 52265 using both spectroscopic and seismic data.
Methods: The fundamental stellar parameters of HD 52265 were derived with the semi-automatic software VWA, and the projected rotational velocity was estimated by fitting synthetic profiles to isolated lines in the observed spectrum. The parameters of the observed p modes were determined with a maximum-likelihood estimation. We performed a global fit of the oscillation spectrum, over about ten radial orders, for degrees l = 0 to 2. We also derived the properties of the granulation, and analysed a signature of the rotation induced by the photospheric magnetic activity.
Results: Precise determinations of fundamental parameters have been obtained: Teff = 6100 ± 60 K, log g = 4.35 ± 0.09, [M/H] = 0.19 ± 0.05, as well as vsini=3.6+0.3-1.0kms. We have measured a mean rotation period Prot = 12.3 ± 0.15 days, and find a signature of differential rotation. The frequencies of 31 modes are reported in the range 1500-2550 μHz. The large separation exhibits a clear modulation around the mean value Dnu=98.3 ± 0.1 μHz. Mode widths vary with frequency along an S-shape with a clear local maximum around 1800 μHz. We deduce lifetimes ranging between 0.5 and 3 days for these modes. Finally, we find a maximal bolometric amplitude of about 3.96 ± 0.24 ppm for radial modes.