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Astron. Astrophys. 359, 983-990 (2000)

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Isothermal two-component stellar wind of hot stars

J. Krtika 1,2 and J. Kubát 2

1 Katedra teoretické fyziky a astrofyziky PF MU, Kotláská 2, 611 37 Brno, Czech Republic
2 Astronomický ústav, Akademie vd eské republiky, 251 65 Ondejov, Czech Republic

Received 13 December 1999 / Accepted 22 May 2000

Abstract

We present results of the solution of hydrodynamic equations of a two-component radiatively driven stellar wind with an inclusion of the frictional force. The temperature of the wind is assumed to be equal to the effective temperature of the star. We found that for the case of late B stars the stellar wind does not decouple, but its terminal velocity is lowered with respect to the one-component solution. This effect is a consequence of the radiative force dependence on the velocity gradient, which is inherent to the CAK model using the Sobolev approximation.

For hot B star and O stars there is no significant difference between one and two-component solutions.

Key words: stars: mass-loss – stars: winds, outflows – hydrodynamics – stars: early-type

Send offprint requests to: J. Krtika

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© European Southern Observatory (ESO) 2000

Online publication: July 13, 2000
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