Spectral hardening as a viable alternative to disc truncation in black hole state transitions
| Autor: | Salvesen, Greg, Miller, Jon M., Reis, Rubens C., Begelman, Mitchell C. |
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| Rok vydání: | 2013 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| DOI: | 10.1093/mnras/stt436 |
| Popis: | Constraining the accretion flow geometry of black hole binaries in outburst is complicated by the inability of simplified multi-colour disc models to distinguish between changes in the inner disc radius and alterations to the emergent spectrum, parameterised by the phenomenological colour correction factor, f_col. We analyse Rossi X-ray Timing Explorer observations of the low mass Galactic black hole X-ray binary, GX 339-4, taken over seven epochs when the source was experiencing a state transition. The accretion disc component is isolated using a pipeline resulting in robust detections for disc luminosities, 0.001 < L_disc / L_Edd < 0.5. Assuming that the inner disc remains situated at the innermost stable circular orbit over the course of a state transition, we measure the relative degree of change in f_col required to explain the spectral evolution of the disc component. A variable f_col that increases by a factor of ~ 2.0 - 3.5 as the source transitions from the high/soft state to the low/hard state can adequately explain the observed disc spectral evolution. For the observations dominated by a disc component, the familiar scaling between the disc luminosity and effective temperature, L_disc ~ T_eff^4, is observed; however, significant deviations from this relation appear when GX 339-4 is in the hard intermediate and low/hard states. Allowing for an evolving f_col between spectral states, the L_disc-T_eff^4 law is recovered over the full range of disc luminosities, although this depends heavily on the physically conceivable range of f_col. We demonstrate that physically reasonable changes in f_col provide a viable description for multiple state transitions of a black hole binary without invoking radial motion of the inner accretion disc. Comment: 28 pages, 17 figures, 3 tables, accepted for publication in MNRAS |
| Databáze: | arXiv |
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