English

Evolution of binary seeds in collapsing protostellar gas clouds

Solar and Stellar Astrophysics 2016-12-14 v2

Abstract

We perform three dimensional smoothed particle hydrodynamics (SPH) simulations of gas accretion onto the seeds of binary stars to investigate their short-term evolution. Our simulation setup is more realistic compared to the previous works by taking into account of dynamically evolving envelope with non-uniform distribution of gas density and angular momentum of accreting flow. Our initial condition includes a seed binary and a surrounding gas envelope, modelling the phase of core collapse of gas cloud when the fragmentation has already occurred. We assume that the seed binary has no eccentricity and no growth by gas accretion. The envelope is assumed to be an isothermal gas with no self-gravity. We run multiple simulations with different values of initial mass ratio q0q_0 (the ratio of secondary over primary mass) and gas temperature, and find a critical value of qc=0.25q_{\rm c} = 0.25 which distinguishes the later evolution of mass ratio qq as a function of time. If q0q_0 >~ qcq_{\rm c}, the secondary seed grows faster and qq increases monotonically towards unity. If q0q_0 <~ qcq_{\rm c}, on the other hand, the primary seed grows faster and qq is lower than q0q_0 at the end of the simulation. Based on our numerical results, we analytically calculate the long-term evolution of the seed binary including the growth of binary by gas accretion. We find that the seed binary with q0q_0 >~ qcq_{\rm c} evolves towards an equal-mass binary star, and that with q0q_0 <~ qcq_{\rm c} evolves to a binary with an extreme value of qq. Binary separation is a monotonically increasing function of time for any q0q_0, suggesting that the binary growth by accretion does not lead to the formation of close binaries.

Keywords

Cite

@article{arxiv.1607.06592,
  title  = {Evolution of binary seeds in collapsing protostellar gas clouds},
  author = {Tatsuya Satsuka and Toru Tsuribe and Suguru Tanaka and Kentaro Nagamine},
  journal= {arXiv preprint arXiv:1607.06592},
  year   = {2016}
}

Comments

12 pages, 9 figures, MNRAS accepted

R2 v1 2026-06-22T15:01:25.157Z