The superimposed photospheric and stellar wind variability of the O-type supergiant alpha Cam
Abstract
(Abridged) We provide empirical constraints on the different physical components that can act to yield temporal variability in predominantly or partially wind-formed optical lines of luminous OB stars, and thus potentially affect the reliable determination of fundamental parameters, including mass-loss rates via clumped winds. Using time-series spectroscopy from epochs spread over 4 years, a case study of the O9.5 supergiant α Cam is presented. We demonstrate that the He I 5876 (23P0--33D) line is an important diagnostic for photospheric and wind variability in this star. The optical line profiles of α Cam are affected by (i) deep-seated fluctuations close to, or at, the photosphere, (ii) atmospheric velocity gradients, and (iii) large-scale stellar wind structure. This study provides new empirical perspectives on accurate line-synthesis modelling of stellar wind signatures in massive luminous stars. Using a pure Halpha line-synthesis code we interpret maximum changes in the red-ward and peak emission of α Cam in terms of mass-loss rate differences in the range 5.1 × 10-6 to 6.5 × 10-6 M yr-1. However, the models generally fail to reproduce the morphology of blueward (possibly absorptive) regions of the profiles.
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