Modelling interaction of relativistic and non-relativistic winds in binary system PSR B1259−63/SS2883 – I. Hydrodynamical limit

In 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 non-relativistic ste...

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Bibliographic Details
Published in:Monthly notices of the Royal Astronomical Society 2008-06, Vol.387 (1), p.63-72
Main Authors: Bogovalov, S. V., Khangulyan, D. V., Koldoba, A. V., Ustyugova, G. V., Aharonian, F. A.
Format: Article
Language:English
Subjects:
Astrophysics
binaries: close
Fluid mechanics
hydrodynamics
Mathematical models
methods: numerical
Pulsars
pulsars: general
pulsars: individual: PSR B1259-63
shock waves
Stars & galaxies
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Summary:In 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 non-relativistic 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 kinetic pressure. Moreover, the post-shock flow propagates in a rather narrow region, with very high bulk Lorentz factor (γ∼ 100). This flow acceleration is related to adiabatic losses which are purely hydrodynamical effects. Interestingly, in this particular case, no magnetic field is required for formation of the ultrarelativistic bulk outflow. The obtained results provide a new interpretation for the orbital variability of radio, X-ray and gamma-ray signals detected from binary pulsar system PSR B1259−63/SS2883.
ISSN:0035-8711
1365-2966
DOI:10.1111/j.1365-2966.2008.13226.x