The Radius of PSR J0740+6620 from NICER and XMM-Newton Data

Abstract

PSR J0740+6620 has a gravitational mass of 2.08 0.07~M, which is the highest reliably determined mass of any neutron star. As a result, a measurement of its radius will provide unique insight into the properties of neutron star core matter at high densities. Here we report a radius measurement based on fits of rotating hot spot patterns to Neutron Star Interior Composition Explorer (NICER) and X-ray Multi-Mirror (XMM-Newton) X-ray observations. We find that the equatorial circumferential radius of PSR J0740+6620 is 13.7+2.6-1.5 km (68%). We apply our measurement, combined with the previous NICER mass and radius measurement of PSR J0030+0451, the masses of two other 2~M pulsars, and the tidal deformability constraints from two gravitational wave events, to three different frameworks for equation of state modeling, and find consistent results at 1.5-3 times nuclear saturation density. For a given framework, when all measurements are included the radius of a 1.4~M neutron star is known to 4% (68% credibility) and the radius of a 2.08~M neutron star is known to 5%. The full radius range that spans the 1σ credible intervals of all the radius estimates in the three frameworks is 12.45 0.65 km for a 1.4~M neutron star and 12.35 0.75 km for a 2.08~M neutron star.