📝 SummarXiv

Abstract

We report an X-ray polarization degree (PD) of $8.8\pm1.4\%~(1\sigma)$ from the accretion-disc-corona (ADC) neutron-star system 2S 0921-630 (=V395 Car) observed with the Imaging X-ray Polarimetry Explorer (IXPE). The PD increases with energy, while the polarization angle (PA) varies significantly across the band. These trends are consistent with a high-inclination ADC geometry where the vertically extended disc blocks direct sight of the central X-ray source, and the observed X-rays are those scattered in an equatorial disc wind. We also find tentative PD variability in the 2--3 keV band. To interpret the time-averaged polarization, we build spectropolarimetric models by Monte Carlo radiation transfer simulation with column density distribution of thermal-radiative wind launched by X-ray irradiation of the outer disc under an axisymmetric geometry. The model combines boundary-layer emission, its disc reflection, and the disc continuum, each with its intrinsic polarization. Scattering of this composite spectrum in the wind reproduces both the observed PD and its increase with energy. However, the observed PA evolution is not captured, which may indicate departures from axisymmetry--e.g. misalignment between the inner disc (and/or neutron-star spin) and the outer disc/wind, or a weak disc warping.