The First X-ray Polarimetry of GRS 1739--278 Reveals Its Rapidly Spinning Black Hole
Abstract
We present a joint spectro-polarimetric analysis of the black hole X-ray binary GRS~1739--278 during its 2025 mini-outburst, using simultaneous observations from \ and . The \ data show a polarization degree of PD = (2.3 0.4)\% and a polarization angle of PA = 62 5 in the 2--8~keV range. The model-independent analysis reveals that the PD increases from 2\% at 2~keV to 10\% in the 6--8~keV band, while the PA remains stable across the \ band within statistical uncertainties. Broadband spectral modeling of the combined \ and \ datasets shows that hard Comptonization contributes negligibly in this soft-state observation, while a substantial reflected component is required in addition to the thermal disk emission. We then model the \ Stokes spectra using the kynbbrr model. The best-fitting results indicate that high-spin configurations enhance the contribution of reflected returning radiation, which dominates the observed polarization properties. From the kynbbrr modeling, we infer an extreme black hole spin of a = 0.994+0.004-0.003 and a system inclination of i = 54^+8-4. Owing to the large contribution from returning radiation, the observed polarization direction is nearly parallel to the projected system axis, the position angle of which is predicted to be 58 4. Our results demonstrate that X-ray polarimetry, combined with broadband spectroscopy, directly probes the geometry and relativistic effects in accretion disks around stellar-mass black holes.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.