English

(No) neutron star maximum mass constraint from hypernuclei

Nuclear Theory 2017-06-21 v1 High Energy Astrophysical Phenomena

Abstract

(Abridged) The recent measurement of the mass of two 2M2\, M_\odot pulsars has raised the question whether such large masses allow for the existence of exotic degrees of freedom, such as hyperons, inside neutron stars. In the present work we will investigate how the existing hypernuclei properties may constrain the neutron star equation of state and confront the neutron star maximum masses obtained with equations of state calibrated to hypernuclei properties with the astrophysical 2M2\,M_\odot constraint. The study is performed using a relativistic mean field approach to describe both the hypernuclei and the neutron star equations of state. A set of five models consistent with 2M2\,M_\odot for a purely nucleonic composition are employed. The Λ\Lambda-meson couplings are determined for all the models considered. Hyperonic stars with the complete baryonic octet are studied, restricting the coupling of the Σ\Sigma and Ξ\Xi hyperons to the ω\omega-, ρ\rho- and σ\sigma-mesons due to the lack of experimental data, and maximum star masses calculated for unified equations of state. We conclude that the currently available hypernuclei experimental data and the lack of constraints on the asymmetric equation of state of nuclear matter at high densities do not allow to further constrain the neutron star matter equation of state using the recent 2M2\, M_\odot observations. It is also shown that the Λ\Lambda potential in symmetric nuclear matter takes a value 3032\sim 30-32 MeV at saturation for the gωΛg_{\omega \Lambda} coupling given by the SU(6) symmetry, close to values generally used in the literature. However, the Λ\Lambda potential in Λ\Lambda matter varies between -16 and -8 MeV taking for vector mesons couplings the SU(6) values, at variance with generally employed values between 1-1 and 5-5 MeV.

Keywords

Cite

@article{arxiv.1701.06373,
  title  = {(No) neutron star maximum mass constraint from hypernuclei},
  author = {M. Fortin and S. S. Avancini and C. Providência and I. Vidaña},
  journal= {arXiv preprint arXiv:1701.06373},
  year   = {2017}
}
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