Re-estimating the Spin Parameter of the Black Hole in Cygnus X-1

Zhao, X.; Gou, L.; Dong, Y.; Zheng, X.; Steiner, J.F.; Miller-Jones, James; Bahramian, Arash; Orosz, J.A.; Feng, Y.

doi:10.3847/1538-4357/abbcd6

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Access Status

Open access

Authors

Zhao, X.

Gou, L.

Dong, Y.

Zheng, X.

Steiner, J.F.

Miller-Jones, James

Bahramian, Arash

Orosz, J.A.

Feng, Y.

Date

2021

Type

Journal Article

Metadata

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Citation

Zhao, X. and Gou, L. and Dong, Y. and Zheng, X. and Steiner, J.F. and Miller-Jones, J.C.A. and Bahramian, A. et al. 2021. Re-estimating the Spin Parameter of the Black Hole in Cygnus X-1. Astrophysical Journal. 908 (2): ARTN 117.

Source Title

Astrophysical Journal

DOI

10.3847/1538-4357/abbcd6

ISSN

0004-637X

Faculty

Faculty of Science and Engineering

School

School of Elec Eng, Comp and Math Sci (EECMS)

Abstract

Cygnus X-1 is a well-studied persistent black hole X-ray binary. Recently, the three parameters needed to estimate the black hole spin of this system, namely the black hole mass M, the orbital inclination i, and the source distance D, have been updated. In this work we redetermine the spin parameter using the continuum-fitting technique for those updated parameter values. Based on the assumption that the spin axis of the black hole is aligned with the orbital plane, we fit the thermal disk component to a fully relativistic thin accretion disk model. The error in the spin estimate arising from the combined observational uncertainties is obtained via Monte Carlo simulations. We demonstrate that, without considering the counteracting torque effect, the new spin parameter is constrained to be a ∗ > 0.9985 (3σ), which confirms that the spin of the black hole in Cygnus X-1 is extreme.