Add to ORKGIn this paper, we present a detailed hydrodynamical study of the properties of the flow produced by the collision of a pulsar wind with the surrounding in a binary system. This work is the first attempt to simulate interaction of the ultrarelativistic flow (pulsar wind) with the nonrelativistic stellar wind. Obtained results show that the wind collision could result in the formation of an "unclosed" (at spatial scales comparable to the binary system size) pulsar wind termination shock even when the stellar wind ram pressure exceeds significantly the pulsar wind kinetical pressure. Moreover, the post-shock flow propagates in a rather narrow region, with very high bulk Lorentz factor ($\gamma\sim100$). This flow acceleration is related to adi...
Context. We present an analysis of our high-resolution relativistic hydrodynamics model of the stell...
International audienceContext. Detailed modelling of the high-energy emission from gamma-ray binarie...
Context. In the first paper of this series, we presented a numerical model for the non-thermal emiss...
In this paper, we present a detailed hydrodynamical study of the properties of the flow produced by ...
Context. Several gamma-ray binaries show extended X-ray emission that may be associated to interacti...
Context. The winds from a non-accreting pulsar and a massive star in a binary system collide forming...
Several gamma-ray binaries show extended X-ray emission that may be associated to interactions of an...
In this paper, we present a numerical study of the properties of the flow produced by the collision ...
Context. γ-ray binaries are composed of a massive star and a rotation-powered pulsar with a highly r...
Context. Binary systems containing a massive star and a non-accreting pulsar present strong interact...
Binary systems that host a massive star and a non-accreting pulsar can be powerful non-thermal emitt...
Binary systems that host a massive star and a non-accreting pulsar can be powerful non-thermal emitt...
Abstract. γ-ray binaries are colliding wind binaries (CWB) composed of a massive star a non-accretin...
Context. We present an analysis of our high-resolution relativistic hydrodynamics model of the stell...
International audienceContext. Detailed modelling of the high-energy emission from gamma-ray binarie...
Context. In the first paper of this series, we presented a numerical model for the non-thermal emiss...
In this paper, we present a detailed hydrodynamical study of the properties of the flow produced by ...
Context. Several gamma-ray binaries show extended X-ray emission that may be associated to interacti...
Context. The winds from a non-accreting pulsar and a massive star in a binary system collide forming...
Several gamma-ray binaries show extended X-ray emission that may be associated to interactions of an...
In this paper, we present a numerical study of the properties of the flow produced by the collision ...
Context. γ-ray binaries are composed of a massive star and a rotation-powered pulsar with a highly r...
Context. Binary systems containing a massive star and a non-accreting pulsar present strong interact...
Binary systems that host a massive star and a non-accreting pulsar can be powerful non-thermal emitt...
Binary systems that host a massive star and a non-accreting pulsar can be powerful non-thermal emitt...
Abstract. γ-ray binaries are colliding wind binaries (CWB) composed of a massive star a non-accretin...
Context. We present an analysis of our high-resolution relativistic hydrodynamics model of the stell...
International audienceContext. Detailed modelling of the high-energy emission from gamma-ray binarie...
Context. In the first paper of this series, we presented a numerical model for the non-thermal emiss...