# High-precision optical polarimetry of the accreting black hole V404 Cyg   during the June 2015 outburst

**Authors:** Ilia A. Kosenkov (1, 2, 3), Andrei V. Berdyugin (1), Vilppu Piirola, (1, 4, 5), Sergey S. Tsygankov (1), Enric Pall\'e (6), Paulo A. Miles-P\'aez, (7), Juri Poutanen (1, 2, 8) ((1) Tuorla Observatory, University of Turku,, Finland, (2) Nordita KTH Royal Institute of Technology, Stockholm, University, Sweden, (3) Department of Astrophysics, St. Petersburg State, University, Russia, (4) Finnish Center for Astronomy with ESO, University of, Turku, Finland, (5) Kiepenheuer-Institut f\"ur Sonnenphysik, Germany, (6), Instituto de Astrof\'isica de Canaris, Spain, (7) The University of Western, Ontario, Department of Physics, Astronomy, Canada, (8) Kavli Institute for, Theoretical Physics, University of California, USA)

arXiv: 1702.02008 · 2017-05-31

## TL;DR

This study presents high-precision optical polarimetry of the black hole binary V404 Cyg during its 2015 outburst, revealing intrinsic polarization changes that suggest scattering processes rather than jet emission.

## Contribution

First detailed polarimetric analysis of V404 Cyg during outburst, distinguishing between interstellar and intrinsic polarization components and proposing scattering mechanisms.

## Key findings

- Intrinsic polarization peaks in V-band at 1.1%
- Polarization position angle varies during outburst
- Wavelength dependence suggests scattering, not jet emission

## Abstract

Our simultaneous three-colour ($BVR$) polarimetric observations of the low-mass black hole X-ray binary V404 Cyg show a small but statistically significant change of polarization degree ($\Delta p \sim 1$ per cent) between the outburst in June 2015 and the quiescence. The polarization of V404 Cyg in the quiescent state agrees within the errors with that of the visually close (1\farcs4) companion ($p_{R} = 7.3\pm 0.1$ per cent), indicating that it is predominantly of interstellar origin. The polarization pattern of the surrounding field stars supports this conclusion. From the observed variable polarization during the outburst we show that polarization degree of the intrinsic component peaks in the $V$-band, $p_{V} = 1.1\pm 0.1$ per cent, at the polarization position angle of $\theta_{V}= -7\deg\pm 2\deg$, which is consistent in all three passbands. We detect significant variations in the position angle of the intrinsic polarization in $R$ band from $-30\deg$ to $\sim 0\deg$ during the outburst peak. The observed wavelength dependence of the intrinsic polarization does not support non-thermal synchrotron emission from a jet as a plausible mechanism, but is in better agreement with the combined effect of electron (Thomson) scattering and absorption in a flattened plasma envelope or outflow surrounding the illuminating source. Alternatively, the polarization signal can be produced by scattering of the disc radiation in a mildly relativistic polar outflow. The position angle of the intrinsic polarization, nearly parallel to the jet direction (i.e. perpendicular to the accretion disc plane), is in agreement with these interpretations.

## Full text

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## Figures

21 figures with captions in the complete paper: https://tomesphere.com/paper/1702.02008/full.md

## References

64 references — full list in the complete paper: https://tomesphere.com/paper/1702.02008/full.md

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Source: https://tomesphere.com/paper/1702.02008