Hyperon bulk viscosity and \(r\)-modes of neutron stars

We propose and apply a new parameterization of the modified chiral effective model to study rotating neutron stars with hyperon cores in the framework of the relativistic mean-field theory. The inclusion of mesonic cross couplings in the model has improved the density content of the symmetry energy...

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Bibliographic Details
Published in:arXiv.org 2022-08
Main Authors: Jyothilakshmi, O P, Sravan Krishnan, P E, Thakur, Prashant, Sreekanth, V, Jha, T K
Format: Article
Language:English
Subjects:
Angular velocity
Couplings
Damping
Mean field theory
Neutron stars
Parameterization
Relativistic theory
Stability
Stability analysis
Stellar rotation
Viscosity
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Summary:We propose and apply a new parameterization of the modified chiral effective model to study rotating neutron stars with hyperon cores in the framework of the relativistic mean-field theory. The inclusion of mesonic cross couplings in the model has improved the density content of the symmetry energy slope parameters, which are in agreement with the findings from recent terrestrial experiments. The bulk viscosity of the hyperonic medium is analyzed to investigate its role in the suppression of gravitationally driven \(r\)-modes. The hyperonic bulk viscosity coefficient caused by non-leptonic weak interactions and the corresponding damping timescales are calculated and the \(r\)-mode instability windows are obtained. The present model predicts a significant reduction of the unstable region due to a more effective damping of oscillations. We find that from \(\sim 10^8\) K to \(\sim 10^{9}\) K, hyperonic bulk viscosity completely suppresses the \(r\)-modes leading to a stable region between the instability windows. Our analysis indicates that the instability can reduce the angular velocity of the star up to \(\sim\)0.3~\(\Omega_K\), where \(\Omega_K\) is the Kepler frequency of the star.
ISSN:2331-8422
DOI:10.48550/arxiv.2208.14436