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Combining Electromagnetic and Gravitational-Wave Constraints on Neutron-Star Masses and Radii

Mohammad Al-Mamun, Andrew W. Steiner, Joonas Nättilä, Jacob Lange, R. O’Shaughnessy, Ingo Tews, Stefano Gandolfi, C. O. Heinke, Sophia Han

2021Physical Review Letters96 citationsDOIOpen Access PDF

Abstract

We perform a joint Bayesian inference of neutron-star mass and radius constraints based on GW170817, observations of quiescent low-mass x-ray binaries (QLMXBs), photospheric radius expansion x-ray bursting sources, and x-ray timing observations of J0030+0451. With this dataset, the form of the prior distribution still has an impact on the posterior mass-radius curves and equation of state (EOS), but this impact is smaller than recently obtained when considering QLMXBs alone. We analyze the consistency of the electromagnetic data by including an "intrinsic scattering" contribution to the uncertainties, and find only a slight broadening of the posteriors. This suggests that the gravitational-wave and electromagnetic observations of neutron-star structure are providing a consistent picture of the neutron-star mass-radius curve and the EOS.

Topics & Concepts

Neutron starPhysicsRADIUSGravitational waveAstrophysicsEquation of stateGravitationMass distributionComputational physicsClassical mechanicsGalaxyQuantum mechanicsComputer scienceComputer securityPulsars and Gravitational Waves ResearchGamma-ray bursts and supernovaeHigh-pressure geophysics and materials
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