English

Nucleosynthesis in dynamical and torus ejecta of compact binary mergers

Solar and Stellar Astrophysics 2015-10-13 v2 High Energy Astrophysical Phenomena

Abstract

We present a comprehensive study of r-process element nucleosynthesis in the ejecta of compact binary mergers (CBMs) and their relic black-hole (BH)-torus systems. The evolution of the BH-accretion tori is simulated for seconds with a Newtonian hydrodynamics code including viscosity effects, pseudo-Newtonian gravity for rotating BHs, and an energy-dependent two-moment closure scheme for the transport of electron neutrinos and antineutrinos. The investigated cases are guided by relativistic double neutron star (NS-NS) and NS-BH merger models, producing ~3-6 Msun BHs with rotation parameters of A~0.8 and tori of 0.03-0.3 Msun. Our nucleosynthesis analysis includes the dynamical (prompt) ejecta expelled during the CBM phase and the neutrino and viscously driven outflows of the relic BH-torus systems. While typically ~20-25% of the initial accretion-torus mass are lost by viscously driven outflows, neutrino-powered winds contribute at most another ~1%, but neutrino heating enhances the viscous ejecta significantly. Since BH-torus ejecta possess a wide distribution of electron fractions (0.1-0.6) and entropies, they produce heavy elements from A~80 up to the actinides, with relative contributions of A>130 nuclei being subdominant and sensitively dependent on BH and torus masses and the exact treatment of shear viscosity. The combined ejecta of CBM and BH-torus phases can reproduce the solar abundances amazingly well for A>90. Varying contributions of the torus ejecta might account for observed variations of lighter elements with 40<Z<56 relative to heavier ones, and a considerable reduction of the prompt ejecta compared to the torus ejecta, e.g. in highly asymmetric NS-BH mergers, might explain the composition of heavy-element deficient stars.

Keywords

Cite

@article{arxiv.1504.05448,
  title  = {Nucleosynthesis in dynamical and torus ejecta of compact binary mergers},
  author = {Oliver Just and Andreas Bauswein and Ricard Ardevol Pulpillo and Stephane Goriely and H. -Thomas Janka},
  journal= {arXiv preprint arXiv:1504.05448},
  year   = {2015}
}

Comments

7 pages, 4 figures, only changed title compared to previous version, accepted for publication in Proceedings of Science (Nuclei in the Cosmos XIII, Debrecen)

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