Three-dimensional numerical simulation of gaseous flow structure in semidetached binaries

Abstract: The results of numerical simulation of mass transfer in semidetached non‐magnetic binaries are presented. We investigate the morphology of gaseous flows on the basis of three‐dimensional gas‐dynamical calculations of interacting binaries of different types (cataclysmic variables and low‐mass X‐ray binaries). We find that taking into account a circumbinary envelope leads to significant changes in the stream–disc morphology. In particular, the obtained steady‐state self‐consistent solutions show an absence of im… Show more

“…The markers in the upper panel denote the following features of the flow pattern: two lines with triangles correspond to the arms of the spiral tidal shock; the line with the hollow diamonds denotes the "hot line", a shock that occurs during the interaction of the circumdisk halo with the stream from the L 1 point; and the line with the filled diamonds lies in the region along the stream from the L 1 point. In the case of large disks and more intensive circumdisk halos, the "hot line" begins in regions edging the stream nearer to the L 1 point (Bisikalo et al 1998). The line with the filled diamonds schematically denotes the beginning of such a "hot line".…”

Structure of the pre-outburst accretion disk in SS Cygni

“…The markers in the upper panel denote the following features of the flow pattern: two lines with triangles correspond to the arms of the spiral tidal shock; the line with the hollow diamonds denotes the "hot line", a shock that occurs during the interaction of the circumdisk halo with the stream from the L 1 point; and the line with the filled diamonds lies in the region along the stream from the L 1 point. In the case of large disks and more intensive circumdisk halos, the "hot line" begins in regions edging the stream nearer to the L 1 point (Bisikalo et al 1998). The line with the filled diamonds schematically denotes the beginning of such a "hot line".…”

Structure of the pre-outburst accretion disk in SS Cygni

“…In accretion occurring in active galactic nuclei, these sub-Keplerian flows could easily come from the star cluster, which is known to have a very slow average rotation (Ho 1999). In a low-mass binary system this sub-Kepler flow could come from a wind induced by the high-energy radiation impinging on the normal star surface, or from gas recirculating in the binary potential well (Bisikalo et al 1998). We are also testing the hypothesis that a physically motivated change in Z of the viscosity prescription can lead to differentially rotating flows.…”

Why Canonical Disks Cannot Produce Advection-dominated Flows

“…The equation of state of a perfect gas P = (γ − 1)ρε was adopted, γ being the adiabatic index. In calculations, we adopted the value of γ very close to 1 to mimic the energy losses due to radiative cooling (see, e.g., Sawada et al 1986;Bisikalo et al 1998). The Roche potential in cylindrical coordinates has the following form:…”

“…Note that an arbitrary value of the boundary density ρ 0 can be chosen since the system of equations can be scaled with respect to ρ and P. To derive the true values of density in a specific system with a known mass loss rate, the calculated densities must simply be changed in accordance with the scale determined from the ratio of the true and model mass-loss rate. The boundary conditions were derived by solving the Riemann problem between the gas parameters (ρ 0 , u 0 , P 0 ) in L rot 1 point and the parameters in the computation gridpoint closest to it (see, e.g., Sawada et al 1986;Sawada & Matsuda 1992, or Bisikalo et al 1998. A full absorption of matter was assumed for the rest of the Bestar surface and for the outer boundary of the computational domain.…”

On the role of duplicity in the Be phenomenon