Daniel Plant scite author profile

The nature of accretion onto stellar mass black holes in the low/hard state remains unresolved, with some evidence suggesting that the inner accretion disc is truncated and replaced by a hot flow. However, the detection of relativistic broadened Fe emission lines, even at relatively low luminosities, seems to require an accretion disc extending fully to its innermost stable circular orbit. Modelling such features is, however, highly susceptible to degeneracies, which could easily bias any interpretation. We present the first systematic study of the Fe line region to track how the inner accretion disc evolves in the low/hard state of the black hole GX 339-4. Our four observations display increased broadening of the Fe line over two magnitudes in luminosity, which we use to track any variation of the disc inner radius. We find that the disc extends closer to the black hole at higher luminosities, but is consistent with being truncated throughout the entire low/hard state, a result which renders black hole spin estimates inaccurate at these stages of the outburst. Furthermore, we show that the evolution of our spectral inner disc radius estimates corresponds very closely to the trend of the break frequency in Fourier power spectra, supporting the interpretation of a truncated and evolving disc in the hard state.

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Revealing accretion on to black holes: X-ray reflection throughout three outbursts of GX 339−4

Plant

Fender

Ponti

et al. 2014

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Understanding the dynamics behind black hole state transitions and the changes they reflect in outbursts has become long-standing problem. The X-ray reflection spectrum describes the interaction between the hard X-ray source (the power-law continuum) and the cool accretion disc it illuminates, and thus permits an indirect view of how the two evolve. We present a systematic analysis of the reflection spectrum throughout three outbursts (500+ observations) of the black hole binary GX 339−4, representing the largest study applying a self-consistent treatment of reflection to date. Particular attention is payed to the coincident evolution of the power-law and reflection, which can be used to determine the accretion geometry. The hard state is found to be distinctly reflection weak, however the ratio of reflection to power-law gradually increases as the source luminosity rises. In contrast the reflection is found dominate the power-law throughout most of the soft state, with increasing supremacy as the source decays. We discuss potential dynamics driving this, favouring inner disc truncation and decreasing coronal height for the hard and soft states respectively. Evolution of the ionisation parameter, power-law slope and high-energy cut-off also agree with this interpretation.

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Inclination and relativistic effects in the outburst evolution of black hole transients

Muñoz-Darias¹,

Coriat²,

Plant³

et al. 2013

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We have systematically studied the effect of the orbital inclination in the outburst evolution of black hole transients. We have included all the systems observed by the Rossi X-ray timing explorer in which the thermal, accretion disc component becomes strongly dominant at some point of the outburst. Inclination is found to modify the shape of the tracks that these systems display in the colour/luminosity diagrams traditionally used for their study. Black hole transients seen at low inclination reach softer spectra and their accretion discs look cooler than those observed closer to edge-on. This difference can be naturally explained by considering inclination dependent relativistic effects on accretion discs.

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Improved Proton-Detected Heteronuclear Correlation Using Gradient-Enhanced z and zz Filters

John

Plant

Hurd

1993

Journal of Magnetic Resonance, Series A

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The generation of phase-sensitive 2D 15N1H spectra using gradient pulses for coherence-transfer-pathway selection

Boyd

Soffe

John³

et al. 1992

Journal of Magnetic Resonance (1969)

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Daniel Plant

The truncated and evolving inner accretion disc of the black hole GX 339−4

Revealing accretion on to black holes: X-ray reflection throughout three outbursts of GX 339−4

Inclination and relativistic effects in the outburst evolution of black hole transients

Improved Proton-Detected Heteronuclear Correlation Using Gradient-Enhanced z and zz Filters

The generation of phase-sensitive 2D 15N1H spectra using gradient pulses for coherence-transfer-pathway selection

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