Thermal X-rays from Millisecond Pulsars: Constraining the Fundamental Properties of Neutron Stars

TL;DR

This study models X-ray emissions from millisecond pulsars to constrain neutron star properties, demonstrating that future observatories could achieve precise measurements of the mass-to-radius ratio, informing the neutron star equation of state.

Contribution

The paper introduces a method to extract neutron star parameters from X-ray pulse profiles, even with limited photon data, and assesses future observatories' potential for blind pulsar searches.

Findings

X-ray data can constrain neutron star radius to within a few kilometers.

Hydrogen atmosphere models fit the observed X-ray emissions of studied MSPs.

Future X-ray observatories could improve constraints on neutron star properties significantly.

Abstract

Abridged) We model the X-ray properties of millisecond pulsars (MSPs) by considering hot spot emission from a weakly magnetized rotating neutron star (NS) covered by an optically-thick hydrogen atmosphere. We investigate the limitations of using the thermal X-ray pulse profiles of MSPs to constrain the mass-to-radius ($M/R$) ratio of the underlying NS. The accuracy is strongly dependent on the viewing angle and magnetic inclination. For certain systems, the accuracy is ultimately limited only by photon statistics implying that future X-ray observatories could, in principle, achieve constraints on $M/R$ and hence the NS equation of state to better than $\sim$5%. We demonstrate that valuable information regarding the basic properties of the NS can be extracted even from X-ray data of fairly limited photon statistics through modeling of archival spectroscopic and timing observations of the nearby isolated PSRs J0030+0451 and J2124--3358. The X-ray emission from these pulsars is consistent with the presence of a hydrogen atmosphere and a dipolar magnetic field configuration, in agreement with previous findings for PSR J0437--4715. For both MSPs, the favorable geometry allows us to place interesting limits on the allowed $M/R$ of NSs. Assuming 1.4 M$_{\odot}$, the stellar radius is constrained to be $R > 9.4$ km and $R > 7.8$ km (68% confidence) for PSRs J0030+0451 and J2124--3358, respectively. We explore the prospects of using future observatories such as \textit{Constellation-X} and \textit{XEUS} to conduct blind X-ray timing searches for MSPs not detectable at radio wavelengths due to unfavorable viewing geometry. Using the observational constraints on the pulsar obliquities we are also able to place strong constraints on the magnetic field evolution model proposed by Ruderman.