Litcius/Paper detail

A 3D Radiation Hydrodynamic AGB Binary Model

Zhuo 陈 Chen 卓, Natalia Ivanova, Jonathan Carroll-Nellenback

2020The Astrophysical Journal35 citationsDOIOpen Access PDF

Abstract

Abstract The origin of chemically peculiar stars and nonzero eccentricity in evolved close binaries have been long-standing problems in binary stellar evolution. Answers to these questions may trace back to an intense mass transfer during the asymptotic-giant-branch (AGB) binary phase. In this work, we use AstroBEAR to solve the 3D radiation hydrodynamic equations and calculate the mass transfer rate in AGB binaries that undergo the wind-Roche-lobe overflow or Bondi–Hoyle–Lyttleton (BHL) accretion. MESA produces the density and temperature of the boundary condition of the AGB star. To improve the resolution of the dynamics of a circumbinary disk, we implement an azimuthal angle dependent 3D radiation transfer. We consider optically thin cooling and obtain the number density of the coolants by solving Saha equations. One of the goals of this work is to illustrate the transition from the wind-Roche-lobe overflow to BHL accretion. Both circumbinary disks and spiral structure outflows can appear in the simulations. Circumbinary disks may form when the optical thickness in the equatorial region increases. The increase of the optical thickness is due to the deflected wind. The resulting mass transfer efficiency in our models is up to a factor of 8 times higher than what the standard BHL accretion scenario predicts, and the outflow gains up to 91% of its initial angular momentum when it reaches 1.3 binary separations. Consequently, some AGB binaries may undergo orbit shrinkage, and some will expand. The high mass transfer efficiency is closely related to the presence of the circumbinary disks.

Topics & Concepts

PhysicsCircumbinary planetAstrophysicsBinary numberAccretion (finance)Binary starOutflowStarsMass transferRadiative transferAngular momentumRoche lobeEccentricity (behavior)Binary systemStellar evolutionAzimuthRadiationOrbit (dynamics)Circular orbitOptical depthAsymptotic giant branchComputational physicsWork (physics)Field (mathematics)AstronomyRadiation pressureCarbon starStellar massBoundary value problemAstrophysics and Star Formation StudiesStellar, planetary, and galactic studiesAstronomy and Astrophysical Research
A 3D Radiation Hydrodynamic AGB Binary Model | Litcius