The compact neutron star in 4U 1746-37 revisited: Reassessing the mass and radius

Abstract

A recent analysis of photospheric radius expansion X-ray bursts from the low-mass X-ray binary 4U 1746-37 reported unusually small mass and radius estimates for the neutron star, suggesting it could be a quark star or quark-cluster star. Here, we propose an alternative interpretation: the star's mass and radius could be underestimated from significant blocking of the X-ray flux. Significant blocking factors (B 0.8, reducing the observed flux to 17\% of the intrinsic emission) permit neutron star parameters consistent with the canonical values: M = 1.59 0.69 M, R = 13.0 5.45\,km, or M = 2.12 1.08 M, R = 9.80 4.13\,km. The blocking factor, which varies with the photospheric radius, provides a natural explanation for the anomalously large peak-to-touchdown flux ratio (2.0) and highlights the importance of accounting for geometric system configuration in neutron star mass--radius estimates.