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delta Ceti is not monoperiodic: seismic modeling of a beta Cephei star from MOST spacebased photometry

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arxiv astro-ph/0602036 v1 pith:RPORMSSF submitted 2006-02-02 astro-ph

delta Ceti is not monoperiodic: seismic modeling of a beta Cephei star from MOST spacebased photometry

classification astro-ph
keywords starcetideltabetacepheifirstmodemodel
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The beta Cephei star delta Ceti was considered one of the few monoperiodic variables in the class. Despite (or perhaps because of) its apparently simple oscillation spectrum, it has been challenging and controversial to identify this star's pulsation mode and constrain its physical parameters seismically. Broadband time-resolved photometry of delta Ceti spanning 18.7 days with a duty cycle of about 65% obtained by the MOST (Microvariability & Oscillations of STars) satellite -- the first scientific observations ever obtained by MOST -- reveals that the star is actually multiperiodic. Besides the well-known dominant frequency of f1 = 6.205886/d, we have discovered in the MOST data its first harmonic 2f1 and three other frequencies (f2 = 3.737/d, f3 = 3.673/d and f4 = 0.318/d), all detected with S/N > 4. In retrospect, f2 was also present in archival spectral line profile data but at lower S/N. We present seismic models whose modes match exactly the frequencies f1 and f2. Only one model falls within the common part of the error boxes of the star's observed surface gravity and effective temperature from photometry and spectroscopy. In this model, f1 is the radial (l = 0) first overtone and f2 is the g2 (l = 2, m = 0) mode. This model has a mass of 10.2+/-0.2 Msun and an age of 17.9+/-0.3 million years, making delta Ceti an evolved beta Cephei star. If f2 and f3 are rotationally split components of the same g2 mode, then the star's equatorial rotation velocity is either 27.6 km/s or half this value. Given its vsini of about 1 km/s, this implies we are seeing delta Ceti nearly pole-on.

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  1. Asteroseismic forward modelling of 36 $\beta$ Cep pulsators and inferences on their internal differential rotation

    astro-ph.SR 2026-07 conditional novelty 6.5

    Forward modelling of 36 β Cep stars with second-order rotation effects shows internal rotation declining with age and common radial differential rotation, often non-monotonic, in 17 stars.