Add to ORKGAims. We investigate the anisotropy of stellar winds in binaries to improve the models of accretion in high-mass X-ray binaries. Methods. We model numerically the stellar wind from a supergiant component of a binary in radial and three-dimensional radiation hydrodynamic approximation taking into account the Roche potential, Coriolis force, and radiative pressure in the continuum and spectral lines. Results. The Coriolis force influences substantially the mass loss and thus also the accretion rate. The focusing of the stellar wind by the gravitational field of the compact companion leads to the formation of a gaseous tail behind the companion
Context. Mass-loss rate is one of the most important stellar parameters. Mass loss via stellar winds...
This thesis work is concerned with the accretion processes and flow structures associated with stell...
Context. The radiatively driven wind of the primary star in wind-fed X-ray binaries can be suppresse...
Aims. We investigate the anisotropy of stellar winds in binaries to improve the models of accretion ...
Aims. We have developed a new code for the three-dimensional time-dependent raditation hyd...
In this thesis we discuss the properties of a radiation-driven stellar wind in an X-ray binary syste...
Context. In supergiant X-ray binaries (SgXB), a compact object captures a fraction of the wind of an...
Accretion onto compact objects of material from strong stellar winds, be it in High-Mass X-ray Binar...
© ESO 2019. Context. In supergiant X-ray binaries (SgXB), a compact object captures a fraction of th...
Massive binary evolution is crucial for our understanding of many pheno- mena in the Universe, such ...
We present three-dimensional hydrodynamic calculations of mass transfer in an interacting binary sy...
Context. Binaries with hot massive components are strong X-ray sources. Besides the intrinsic X-ray ...
We investigate which shocked wind is responsible for the majority of the X-ray emission in collidin...
The model of anisotropic loss of the mass and angular momentum is constructed and the non-conservati...
We investigate the structure and X-ray emission from the colliding stellar winds in massive star bin...
Context. Mass-loss rate is one of the most important stellar parameters. Mass loss via stellar winds...
This thesis work is concerned with the accretion processes and flow structures associated with stell...
Context. The radiatively driven wind of the primary star in wind-fed X-ray binaries can be suppresse...
Aims. We investigate the anisotropy of stellar winds in binaries to improve the models of accretion ...
Aims. We have developed a new code for the three-dimensional time-dependent raditation hyd...
In this thesis we discuss the properties of a radiation-driven stellar wind in an X-ray binary syste...
Context. In supergiant X-ray binaries (SgXB), a compact object captures a fraction of the wind of an...
Accretion onto compact objects of material from strong stellar winds, be it in High-Mass X-ray Binar...
© ESO 2019. Context. In supergiant X-ray binaries (SgXB), a compact object captures a fraction of th...
Massive binary evolution is crucial for our understanding of many pheno- mena in the Universe, such ...
We present three-dimensional hydrodynamic calculations of mass transfer in an interacting binary sy...
Context. Binaries with hot massive components are strong X-ray sources. Besides the intrinsic X-ray ...
We investigate which shocked wind is responsible for the majority of the X-ray emission in collidin...
The model of anisotropic loss of the mass and angular momentum is constructed and the non-conservati...
We investigate the structure and X-ray emission from the colliding stellar winds in massive star bin...
Context. Mass-loss rate is one of the most important stellar parameters. Mass loss via stellar winds...
This thesis work is concerned with the accretion processes and flow structures associated with stell...
Context. The radiatively driven wind of the primary star in wind-fed X-ray binaries can be suppresse...