Impact of The Newly Revised Gravitational Redshift of X-ray Burster GS 1826-24 on The Equation of State of Supradense Neutron-Rich Matter

Abstract

Thanks to the recent advancement in producing rare isotopes and measuring their masses with unprecedented precision, the updated nuclear masses around the waiting-point nucleus 64Ge in the rapid-proton capture process have led to a significant revision of the surface gravitational redshift of the neutron star (NS) in GS 1826-24 by re-fitting its X-ray burst light curve ( X. Zhou et al., Nature Physics 19, 1091 (2023)) using Modules for Experiments in Stellar Astrophysics (MESA). The resulting NS compactness is between 0.244 and 0.342 at 95\% confidence level and its upper boundary is significantly smaller than the maximum previously known. Incorporating this new data within a comprehensive Bayesian statistical framework, we investigate its impact on the Equation of State (EOS) of supradense neutron-rich matter and the required spin frequency for GW190814's minor m2 with mass 2.59 0.05M to be a rotationally stable pulsar. We found that the EOS of high-density symmetric nuclear matter (SNM) has to be softened significantly while the symmetry energy at supersaturation densities stiffened compared to our prior knowledge from earlier analyses using data from both astrophysical observations and terrestrial nuclear experiments. In particular, the skewness J0 characterizing the stiffness of high-density SNM decreases significantly, while the slope L, curvature Ksym, and skewness Jsym of nuclear symmetry energy all increase appreciably compared to their fiducial values. We also found that the most probable spin rate for the m2 to be a stable pulsar is very close to its mass-shedding limit once the revised redshift data from GS 1826-24 is considered, making the m2 unlikely the most massive NS observed so far.

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