English

POSYDON: A General-Purpose Population Synthesis Code with Detailed Binary-Evolution Simulations

Solar and Stellar Astrophysics 2023-02-15 v2

Abstract

Most massive stars are members of a binary or a higher-order stellar systems, where the presence of a binary companion can decisively alter their evolution via binary interactions. Interacting binaries are also important astrophysical laboratories for the study of compact objects. Binary population synthesis studies have been used extensively over the last two decades to interpret observations of compact-object binaries and to decipher the physical processes that lead to their formation. Here, we present POSYDON, a novel, binary population synthesis code that incorporates full stellar-structure and binary-evolution modeling, using the MESA code, throughout the whole evolution of the binaries. The use of POSYDON enables the self-consistent treatment of physical processes in stellar and binary evolution, including: realistic mass-transfer calculations and assessment of stability, internal angular-momentum transport and tides, stellar core sizes, mass-transfer rates and orbital periods. This paper describes the detailed methodology and implementation of POSYDON, including the assumed physics of stellar- and binary-evolution, the extensive grids of detailed single- and binary-star models, the post-processing, classification and interpolation methods we developed for use with the grids, and the treatment of evolutionary phases that are not based on pre-calculated grids. The first version of POSYDON targets binaries with massive primary stars (potential progenitors of neutron stars or black holes) at solar metallicity.

Keywords

Cite

@article{arxiv.2202.05892,
  title  = {POSYDON: A General-Purpose Population Synthesis Code with Detailed Binary-Evolution Simulations},
  author = {Tassos Fragos and Jeff J. Andrews and Simone S. Bavera and Christopher P. L. Berry and Scott Coughlin and Aaron Dotter and Prabin Giri and Vicky Kalogera and Aggelos Katsaggelos and Konstantinos Kovlakas and Shamal Lalvani and Devina Misra and Philipp M. Srivastava and Ying Qin and Kyle A. Rocha and Jaime Roman-Garza and Juan Gabriel Serra and Petter Stahle and Meng Sun and Xu Teng and Goce Trajcevski and Nam Hai Tran and Zepei Xing and Emmanouil Zapartas and Michael Zevin},
  journal= {arXiv preprint arXiv:2202.05892},
  year   = {2023}
}

Comments

60 pages, 33 figures, 8 tables, referee's comments addressed. The code and the accompanying documentations and data products are available at https:\\posydon.org

R2 v1 2026-06-24T09:32:49.798Z