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Systematically Revisiting All NuSTAR Spins of Black Holes in X-Ray Binaries

Paul A. DraghisDepartment of Astronomy, University of Michigan, 1085 South University Avenue, Ann Arbor, MI 48109, USA; [email protected]J. M. MïllerDepartment of Astronomy, University of Michigan, 1085 South University Avenue, Ann Arbor, MI 48109, USA; [email protected]E. CostantiniAnton Pannekoek Astronomical Institute, University of Amsterdam, P.O. Box 94249, 1090 GE Amsterdam, The NetherlandsLuigi GalloDepartment of Astronomy & Physics, Saint Mary’s University, 923 Robie Street, Halifax, Nova Scotia B3H 3C3, CanadaM. T. ReynoldsDepartment of Astronomy, Ohio State University, 140 W 18th Avenue, Columbus, OH 43210, USAJohn A. TomsickSpace Sciences Laboratory, 7 Gauss Way, University of California, Berkeley, CA 94720-7450, USAAbderahmen ZoghbiCRESST II, NASA Goddard Space Flight Center, Greenbelt, MD 20771, USA
2024en
ABI

Аннотация

Abstract We extend our recent work on black hole spin in X-ray binary systems to include an analysis of 189 archival NuSTAR observations from 24 sources. Using self-consistent data reduction pipelines, spectral models, and statistical techniques, we report an unprecedented and uniform sample of 36 stellar-mass black hole spin measurements based on relativistic reflection. This treatment suggests that prior reports of low spins in a small number of sources were generally erroneous: our comprehensive treatment finds that those sources tend to harbor black holes with high spin values. Overall, within 1 σ uncertainty, ∼86% of the sample are consistent with a ≥ 0.95, ∼94% of the sample are consistent with a ≥ 0.9, and 100% are consistent with a ≥ 0.7 (the theoretical maximum for neutron stars; a = cJ / GM 2 ). We also find that the high-mass X-ray binaries (those with A-, B-, or O-type companions) are consistent with a ≥ 0.9 within the 1 σ errors; this is in agreement with the low-mass X-ray binary population and may be especially important for comparisons to black holes discovered in gravitational wave events. In some cases, different spectra from the same source yield similar spin measurements but conflicting values for the inclination of the inner disk; we suggest that this is due to variable disk winds obscuring the blue wing of the relativistic Fe K emission line. We discuss the implications of our measurements, the unique view of systematic uncertainties enabled by our treatment, and future efforts to characterize black hole spins with new missions.

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