A fresh look at the seismic spectrum of HD49933: analysis of 180 days of CoRoT photometry
Auvergne, M.; Baudin, F.; García, R. A.; Chaplin, W. J.; Michel, E.; Baglin, A.; Catala, C.; Samadi, R.; Mosser, B.; Barban, C.; Elsworth, Y.; Appourchaux, T.; Mathur, S.; Benomar, O.; Toutain, T.; Verner, G. A.; Ballot, J.; Régulo, C.; Roxburgh, I. W.; Campante, T. L.; Gaulme, P.
France, Denmark, Portugal, United Kingdom, Norway, India, Spain
Abstract
Context: Solar-like oscillations have now been observed in several stars, thanks to ground-based spectroscopic observations and space-borne photometry. CoRoT, which has been in orbit since December 2006, has observed the star HD49933 twice. The oscillation spectrum of this star has proven difficult to interpret.
Aims: Thanks to a new timeseries provided by CoRoT, we aim to provide a robust description of the oscillations in HD49933, i.e., to identify the degrees of the observed modes, and to measure mode frequencies, widths, amplitudes and the average rotational splitting.
Methods: Several methods were used to model the Fourier spectrum: Maximum Likelihood Estimators and Bayesian analysis using Markov Chain Monte-Carlo techniques.
Results: The different methods yield consistent result, and allow us to make a robust identification of the modes and to extract precise mode parameters. Only the rotational splitting remains difficult to estimate precisely, but is clearly relatively large (several μHz in size).