Polarized X-Rays from Windy Accretion in Cygnus X-1 Article Swipe

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Physics Astrophysics Polarization (electrochemistry) Radiative transfer Position angle Polarimetry Degree of polarization Accretion (finance) Sky Viewing angle Accretion disc Orbital plane Linear polarization Binary number Spectral line Astronomy Optics Scattering Galaxy Arithmetic Liquid-crystal display Chemistry Physical chemistry Mathematics Laser

Juri Poutanen , Alexandra Veledina , Andrei M. Beloborodov ·

YOU? · · 2023 · Open Access · · DOI: https://doi.org/10.3847/2041-8213/acd33e · OA: W4377985594

Recent X-ray polarimetric data on the prototypical black hole X-ray binary Cyg X-1 from the Imaging X-ray Polarimetry Explorer present tight constraints on accretion geometry in the hard spectral state. Contrary to general expectations of a low, ≲1% polarization degree (PD), the observed average PD was found to be a factor of 4 higher. Aligned with the jet position angle on the sky, the observed polarization favors geometry of the X-ray emission region stretched normally to the jet in the accretion disk plane. The high PD is, however, difficult to reconcile with the low orbital inclination of the binary i ≈ 30°. We suggest that this puzzle can be explained if the emitting plasma is outflowing with a mildly relativistic velocity ≳0.4 c . Our radiative transfer simulations show that Comptonization in the outflowing medium elongated in the plane of the disk and radiates X-rays with the degree and direction of polarization consistent with observations at i ≈ 30°.