236 research outputs found
Modelling spectral and timing properties of accreting black holes: the hybrid hot flow paradigm
The general picture that emerged by the end of 1990s from a large set of
optical and X-ray, spectral and timing data was that the X-rays are produced in
the innermost hot part of the accretion flow, while the optical/infrared (OIR)
emission is mainly produced by the irradiated outer thin accretion disc. Recent
multiwavelength observations of Galactic black hole transients show that the
situation is not so simple. Fast variability in the OIR band, OIR excesses
above the thermal emission and a complicated interplay between the X-ray and
the OIR light curves imply that the OIR emitting region is much more compact.
One of the popular hypotheses is that the jet contributes to the OIR emission
and even is responsible for the bulk of the X-rays. However, this scenario is
largely ad hoc and is in contradiction with many previously established facts.
Alternatively, the hot accretion flow, known to be consistent with the X-ray
spectral and timing data, is also a viable candidate to produce the OIR
radiation. The hot-flow scenario naturally explains the power-law like OIR
spectra, fast OIR variability and its complex relation to the X-rays if the hot
flow contains non-thermal electrons (even in energetically negligible
quantities), which are required by the presence of the MeV tail in Cyg X-1. The
presence of non-thermal electrons also lowers the equilibrium electron
temperature in the hot flow model to <100 keV, making it more consistent with
observations. Here we argue that any viable model should simultaneously explain
a large set of spectral and timing data and show that the hybrid
(thermal/non-thermal) hot flow model satisfies most of the constraints.Comment: 26 pages, 13 figures. To be published in the Space Science Reviews
and as hard cover in the Space Sciences Series of ISSI - The Physics of
Accretion on to Black Holes (Springer Publisher
The Spectacle of Crime, Digitized
International audienceOne of the most significant features of the television series CSI: Crime Scene Investigationis its central preoccupation – forensic evidence – and the profession practised by its major characters – forensic science. Scientific inscriptions consistently allow the crime scene investigators (CSIs) to determine 'evidence' and 'truths' that otherwise elude them. At the same time, the dazzling digital effects used to punctuate key moments in each episode inevitably reference scientific technologies and the knowledge about reality that these promise. The success of the CSIs in every episode is premised upon knowledge guaranteed by scientific inscriptions and is itself an inscription of ways of seeing human bodies and the social body, represented by police scientists working to ensure public safety – a healthy social body. And it is also about how bodies, individual and social, are constituted as information, made knowable and validated by scientific instruments and procedures used to produce evidence
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