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Bibliographic Details
Main Authors: Han, Ming-Zhe, Gao, Yong, Kiuchi, Kenta, Shibata, Masaru
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2504.08514
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Table of Contents:
  • We systematically perform numerical-relativity simulations for equal-mass binary neutron star mergers for the models varying the thermal index $Γ_{\rm th}$ with three different equations of state (EOSs) of the neutron stars (NSs), which are consistent with current multimessenger observational data and state-of-the-art theoretical calculations, and two different binary total mass ($m_0=2.7\ \text{and}\ 2.9~M_\odot$). By varying the value of $Γ_{\rm th}$ within the hybrid EOS framework, we investigate the thermal effects on the merger dynamics, gravitational waves (GWs), and the dynamical mass ejection process. We find that the choice of the constant $Γ_{\rm th}$ can change the outcome of the remnant for specific EOSs and $m_0$. We also show that the dynamical ejecta mass is affected by the $Γ_{\rm th}$ value in a different way for different EOSs: for a stiff EOS the ejecta mass is high when $Γ_{\rm th}$ is small, while for softer EOSs the largest ejecta is achieved when $Γ_{\rm th} = 1.3$--$1.4$. While the inspiral motion does not depend on the $Γ_{\rm th}$ value, the postmerger phase evolution is highly affected by that. We show that the dominant peak frequency $f_2$ of the postmerger GW spectrum monotonically decreases as the $Γ_{\rm th}$ increases. We find that the universal relations between NS macroscopic properties and postmerger GW frequencies are subject to non-negligible thermal uncertainties, which can obscure the universal relation between the tidal deformability and $f_2$.