English

Evolution of Binary Compact Objects Which Merge

Astrophysics 2008-11-26 v2

Abstract

Beginning from massive binaries in the Galaxy we evolve black-hole, neutron-star binaries and binary neutron stars, such as the Hulse-Taylor system PSR 1913+16. The new point in our evolution is a quantitative calculation of the accretion of matter by a neutron star in common envelope evolution which sends it into a black hole. We calculate the mass of the latter to be 2.4\msun\sim 2.4\msun. Our chief conclusion is that the production rate for black-hole, neutron-star binaries (in which the neutron star is unrecycled) is 104\sim 10^{-4} per year per Galaxy, an order of magnitude greater than that of neutron star binaries. Not only should this result in a factor of \sim 10 more mergings for gravitational wave detectors like LIGO, but the signal should be larger. We give some discussion of why black-hole, neutron-star binaries have not been observed, but conclude that they should be actively searched for.

Keywords

Cite

@article{arxiv.astro-ph/9802084,
  title  = {Evolution of Binary Compact Objects Which Merge},
  author = {Hans A. Bethe and G. E. Brown},
  journal= {arXiv preprint arXiv:astro-ph/9802084},
  year   = {2008}
}

Comments

32 pages, no figures Replacement is final version as accepted by The Astrophysical Journal