Three-dimensional hydrodynamical modeling of mass transfer in the close binary system β Lyr

Details Three-dimensional hydrodynamical modeling of mass transfer in the close binary system β Lyr Three-dimensional hydrodynamical modeling of mass transfer in the close binary system β Lyr

May 2006

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2006arep...50..369n&link_type=abstract

Astronomy Reports, vol. 50, Issue 5, p.369-379

Astronomy and Astrophysics

Astronomy

14

Pacs Numbers 97.80.F

Scientific paper

We present a three-dimensional hydrodynamical modeling of mass transfer in the close binary system β Lyr taking radiative cooling into account explicitly. The assumed mass-transfer rate through the first Lagrangian point L1 is 3.0 × 10-5 M &sun;/yr. A flow with a radius of 0.14 0.16 (in units of orbital separation) is formed in the vicinity of L1. This flow forms an accretion disk with a radius close to 23 R &sun; and a thickness of about 10 R &sun;. The accretion disk is surrounded by an outer envelope that extends beyond the computational domain. A spiral shock forms at the outer boundary of the disk at orbital phase 0.25. Geometrically, the disk is toruslike, while the outer envelope is cylinder-like. In this model, which has low temperatures inside the computational domain, no jetlike structures form in the disk. It is possible that the jetlike structure in β Lyr arises due to the interaction of radiative wind from the accretor with the flow from L1. In the model considered, a hot region exists over the poles of the accretor at a height of about 0.21. The amount of matter lost by the system is close to 10% of the mass flowing through L1; i.e., the mass transfer in the system is almost conservative. For a mass-transfer rate of 3.0 × 10-5 M &sun;/yr, the orbital period varies by 40.4 s/yr. This means that the observed variation of the orbital period of 19 s/yr should correspond to a mass-transfer rate close to 1.0 × 10-5 M &sun;/yr.

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