Huang Y, Liu H, Mirzaev T, Fan N, Bambi C, Zhang Z, Dauser T, García JA, Ingram A, Jiang J, Mastroserio G, Riaz S, Shashank S (2025)
Publication Type: Journal article
Publication year: 2025
Book Volume: 989
Article Number: 168
Journal Issue: 2
The reflection spectrum produced by a cold medium illuminated by X-ray photons is not isotropic and its shape depends on the emission angle. In the reflection spectrum of an accretion disk of a black hole, the value of the emission angle changes over the disk and, in general, is different from the value of the inclination angle of the disk because of the light bending in the strong gravitational field of the black hole. Current reflection models make some approximations, as calculating a reflection spectrum taking the correct emission angle at every point of the disk into account would be too time-consuming and make the model too slow to analyze observations. In a recent paper, we showed that these approximations are unsuitable to fit high-quality black hole spectra expected from the next generation of X-ray missions. Here, we present a reflection model with improved calculations of the emission angle that solves this problem.
APA:
Huang, Y., Liu, H., Mirzaev, T., Fan, N., Bambi, C., Zhang, Z.,... Shashank, S. (2025). X-Ray Reflection Spectroscopy with Improved Calculations of the Emission Angle. Astrophysical Journal, 989(2). https://doi.org/10.3847/1538-4357/adf111
MLA:
Huang, Yimin, et al. "X-Ray Reflection Spectroscopy with Improved Calculations of the Emission Angle." Astrophysical Journal 989.2 (2025).
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