169 research outputs found
Black Hole Accretion in Transient X-Ray Binaries
Recent work on the modes of accretion onto black holes (BHs) in Soft X-Ray
Transients (SXTs) is reviewed, with an emphasis on uncertainties affecting
models of accretion during quiescence (inner hot flow, outer thin disk).
Various interpretations of the quiescent X-ray luminosity difference between
systems containing neutron stars (NSs) and systems containing BH candidates are
also summarized. A new scenario, which does not require BH candidates to
possess an event horizon, is presented here. This scenario may be ruled out in
the future, from detailed X-ray spectroscopic diagnostics or from the absence
of type I X-ray bursts in systems containing BH candidates.Comment: 15 pages, Proceedings of the 2nd KIAS Astrophysics Workshop "Current
High-Energy Emission around Black Holes
Atmospheric Circulation and Composition of GJ1214b
The exoplanet GJ1214b presents an interesting example of compositional
degeneracy for low-mass planets. Its atmosphere may be composed of water,
super-solar or solar metallicity material. We present atmospheric circulation
models of GJ1214b for these three compositions, with explicit grey radiative
transfer and an optional treatment of MHD bottom drag. All models develop
strong, superrotating zonal winds (~ 1-2 km/s). The degree of eastward heat
advection, which can be inferred from secondary eclipse and thermal phase curve
measurements, varies greatly between the models. These differences are
understood as resulting from variations in the radiative times at the thermal
photosphere, caused by separate molecular weight and opacity effects. Our
GJ1214b models illustrate how atmospheric circulation can be used as a probe of
composition for similar tidally-locked exoplanets in the
mini-Neptune/waterworld class.Comment: 14 pages, 4 figures, 1 table, accepted for publication in ApJ
Viscosity Mechanisms in Accretion Disks
The self-sustained turbulence which develops in magnetized accretion disks is
suppressed in the weakly-ionized, quiescent disks of close binary stars.
Because accretion still proceeds during quiescence, another viscosity mechanism
operates in these systems. An anticorrelation of the recurrence times of SU UMa
dwarf novae with their mass ratio supports spiral waves or shock-waves tidally
induced by the companion star as the main process responsible for accretion in
the quiescent disks. Other weakly-ionized gaseous disks in systems lacking a
massive companion have to rely on yet another transport mechanism or they could
be essentially passive.Comment: 7 pages, 2 figures, accepted for publication in Scienc
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