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      Effects of Spin on High-Energy Radiation from Accreting Black Holes

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          Abstract

          Observations of jets in X-ray binaries show a correlation between radio power and black hole spin. This correlation, if confirmed, points towards the idea that relativistic jets may be powered by the rotational energy of black holes. In order to examine this further, we perform general-relativistic radiative transport calculations on magnetically arrested accretion flows, which are known to produce powerful jets via the Blandford-Znajek (BZ) mechanism. We find that the X-ray and gamma-ray emission strongly depend on spin and inclination angle. Surprisingly, the high-energy power does not show the same dependence on spin as the BZ jet power, but instead can be understood as a redshift effect. In particular, photons observed perpendicular to the spin axis suffer little net redshift until originating from close to the horizon. Such observers see deeper into the hot, dense, highly-magnetized inner disk region. This effect is largest for rapidly rotating black holes due to a combination of frame dragging and decreasing horizon radius. While the X-ray emission is dominated by the near horizon region, the near-infrared radiation originates at larger radii. Therefore, the ratio of X-ray to near-infrared power is an observational signature of black hole spin.

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          Author and article information

          Journal
          2016-07-04
          2016-08-17
          Article
          1607.01060
          ac3b707a-6338-4f4e-b10a-e25193ecd28d

          http://arxiv.org/licenses/nonexclusive-distrib/1.0/

          History
          Custom metadata
          15 pages, 13 figures, added panel in Figure 4 showing viewing angle dependence and extended the discussion in Section 4, accepted for publication in ApJ
          astro-ph.HE

          High energy astrophysical phenomena
          High energy astrophysical phenomena

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