Neutron Star Radii, Deformabilities, and Moments of Inertia from Experimental and Ab Initio Theory Constraints of the Pb-208 Neutron Skin Thickness Academic Article

abstract

• Recent experimental and ab initio theory investigations of the 208Pb neutron skin thickness have the potential to inform the neutron star equation of state. In particular, the strong correlation between the 208Pb neutron skin thickness and the pressure of neutron matter at normal nuclear densities leads to modified predictions for the radii, tidal deformabilities, and moments of inertia of typical 1.4M neutron stars. In the present work, we study the relative impact of these recent analyses of the 208Pb neutron skin thickness on bulk properties of neutron stars within a Bayesian statistical analysis. Two models for the equation of state prior are employed in order to highlight the role of the highly uncertain high-density equation of state. From our combined Bayesian analysis of nuclear theory, nuclear experiment, and observational constraints on the dense matter equation of state, we find at the 90% credibility level R1.4=12.360.73+0.38 km for the radius of a 1.4M neutron star, R2.0=11.960.71+0.94 km for the radius of a 2.0M neutron star, 1.4=440144+103 for the tidal deformability of a 1.4M neutron star, and I1.338=1.4250.146+0.0741045gcm2 for the moment of inertia of PSR J0737-3039A whose mass is 1.338M.

authors

• Holt, Jeremy

published proceedings

• GALAXIES

altmetric score

• 0.5

author list (cited authors)

• Lim, Y., & Holt, J. W.

citation count

• 3

complete list of authors

• Lim, Yeunhwan||Holt, Jeremy W

publication date

• September 2022

publisher

• MDPI  Publisher

published in

• Galaxies  Journal

keywords

• Chiral Effective Field Theory
• Neutron Stars
• Nuclear Equation Of State

Digital Object Identifier (DOI)

• 10.3390/galaxies10050099

start page

• 99

end page

• 99

volume

• 10

issue

• 5

URL

• http://dx.doi.org/10.3390/galaxies10050099