S.C. Searle scite author profile

Aims. We undertake an optical and ultraviolet spectroscopic analysis of a sample of 20 Galactic B0−B5 supergiants of luminosity classes Ia, Ib, Iab, and II. Fundamental stellar parameters are obtained from optical diagnostics and a critical comparison of the model predictions to observed UV spectral features is made. Methods. Fundamental parameters (e.g., T eff , log L * , mass-loss rates and CNO abundances) are derived for individual stars using CMFGEN, a nLTE, line-blanketed model atmosphere code. The impact of these newly derived parameters on the Galactic B supergiant T eff scale, mass discrepancy, and wind-momentum luminosity relation is examined. Results. The B supergiant temperature scale derived here shows a reduction of about 1000−3000 K compared to previous results using unblanketed codes. Mass-loss rate estimates are in good agreement with predicted theoretical values, and all of the 20 B0−B5 supergiants analysed show evidence of CNO processing. A mass discrepancy still exists between spectroscopic and evolutionary masses, with the largest discrepancy occurring at log (L/L ) ∼ 5.4. The observed WLR values calculated for B0−B0.7 supergiants are higher than predicted values, whereas the reverse is true for B1−B5 supergiants. This means that the discrepancy between observed and theoretical values cannot be resolved by adopting clumped (i.e., lower) mass-loss rates as for O stars. The most surprising result is that, although CMFGEN succeeds in reproducing the optical stellar spectrum accurately, it fails to precisely reproduce key UV diagnostics, such as the N v and C iv P Cygni profiles. This problem arises because the models are not ionised enough and fail to reproduce the full extent of the observed absorption trough of the P Cygni profiles. Conclusions. Newly-derived fundamental parameters for early B supergiants are in good agreement with similar work in the field. The most significant discovery, however, is the failure of CMFGEN to predict the correct ionisation fraction for some ions. Such findings add further support to revising the current standard model of massive star winds, as our understanding of these winds is incomplete without a precise knowledge of the ionisation structure and distribution of clumping in the wind.

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The ionization structure of early-B supergiant winds

Prinja

Massa²,

Searle

2005

A&A

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Abstract. We present empirically determined ionization conditions for the winds of 106 luminous B0 to B5 stars observed by IUE. The UV wind lines are modelled to extract products of mass-loss rates times ionization fractions (Ṁ q i (w), where w = v/v ∞ ) for N , C , Si , Si , Al  and C . We describe the general behaviour of theṀ q i (w) and their ratios, demonstrating that the wind ionization increases with distance from the star, contrary to recent findings for O star winds. Using empirical mass-loss rates (from Hα observations) and model prescriptions, we derive mean q i (w) values integrated over the wind, q i .These q i are quite small, never exceeding 15% for Al  or 2% for Si . This is surprising, since the q i for these ions clearly peak within the observed spectral range. We conclude that the low q i arise because the Ṁ q i are underestimated by the wind models, which assume that the outflows are smooth when they are, in fact, highly structured.

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Fundamental Parameters of B Supergiants

Searle

Prinja

Crowther

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S.C. Searle

Quantitative studies of the optical and UV spectra of Galactic early B supergiants

The ionization structure of early-B supergiant winds

Fundamental Parameters of B Supergiants

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