2010
DOI: 10.1051/0004-6361/201014111
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Comoving frame models of hot star winds

Abstract: We provide hot star wind models with radiative force calculated using the solution of comoving frame (CMF) radiative transfer equation. The wind models are calculated for the first stars, O stars, and the central stars of planetary nebulae. We show that without line overlaps and with solely thermal line broadening the pure Sobolev approximation provides a reliable estimate of the radiative force even close to the wind sonic point. Consequently, models with the Sobolev line force provide good approximations to … Show more

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Cited by 44 publications
(63 citation statements)
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“…We used our spherically symmetric stationary wind code (Krtička & Kubát 2010a) for the calculation of the wind models of subluminous hot stars. The line radiative force in the models was calculated using the solution of the comoving frame (CMF) radiative transfer equation with occupation numbers derived from the kinetic equilibrium (NLTE) equations.…”
Section: Description Of the Cmf Wind Modelsmentioning
confidence: 99%
“…We used our spherically symmetric stationary wind code (Krtička & Kubát 2010a) for the calculation of the wind models of subluminous hot stars. The line radiative force in the models was calculated using the solution of the comoving frame (CMF) radiative transfer equation with occupation numbers derived from the kinetic equilibrium (NLTE) equations.…”
Section: Description Of the Cmf Wind Modelsmentioning
confidence: 99%
“…To predict main-sequence B star mass-loss rates we applied the NLTE wind models of Krtička & Kubát (2010) with a comoving frame (CMF) line force. Our wind models assume stationary and spherically symmetric flow.…”
Section: Description Of Modelsmentioning
confidence: 99%
“…We used the recent version of our non-local thermodynamic equilibrium (NLTE) wind models (Krtička & Kubát 2010) with a radiative force calculated consistently from the solution of the comoving frame (CMF) radiative transfer equation with actual opacities. Our models are able to predict wind mass-loss rates from the stellar parameters, that is, the effective temperature, mass, radius, and arbitrary chemical composition.…”
Section: Wind Modelsmentioning
confidence: 99%