http://arxiv.org/abs/2203.08521
We apply Bayesian approach to construct a large number of minimally constrained equations of state (EoSs) and study their correlations with a few selected properties of neutron star (NS). Our set of minimal constraints includes a few basic properties of saturated nuclear matter and low density pure neutron matter EoS which is obtained from a precise next-to-next-to-next-to-leading order (N$^{3}$LO) calculation in chiral effective field theory. The tidal deformability and radius of NS with mass $1$-$2M_\odot$ are found to be strongly correlated with the pressure of $\beta$-equilibrated matter as well as with the symmetry energy at densities higher than the saturation density ($\rho_0 = 0.16$ fm$^{-3}$) in a nearly model independent manner. These correlations are employed to parametrize the pressure for $\beta$-equilibrated matter, around 2$\rho_0$, as a function of neutron star mass and the corresponding tidal deformability. The maximum mass of neutron star is also strongly correlated with the pressure of symmetric and $\beta$-equilibrated matter at densities $\sim$ 4.5$\rho_0$.
N. Patra, S. Imam, B. Agrawal, et. al.
Thu, 17 Mar 22
8/66
Comments: 19 pages, 7 figures, submitted to Symmetry Journal
You must be logged in to post a comment.