Download - Accreting black holes at low L/L Edd
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Accreting black holes at low L/LEdd
Chris Done University of Durham
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• Truncated disc/hot inner flow geometry very successful in explaining:– Range of low/hard spectra– Correlated change in PDS– Transition to soft state– Correlated collapse of jet
• But still controversial…– Untruncated disc in LHS (very
broad iron line, hot disc)?• TEST!! All hot inner flows
(ADAF, ADIOS, CDAF) require protons have some (large) fraction of virial kT
• Will get p + p 0
Truncated disc model at low L/LEdd Spectral softness +
PDS frequencies
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• Not much change in Lbol. Soft is disc dominated – radiatively eff, no hot flow so no 0 and would absorb anyway!
• Hard state NOT disc dominated. Should have hot flow and hence 0
and absorption depth < 1 except for brightest hard states.
Transitions: Cyg X-1
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Observable decays?• Thermal (ADAFs): Make X-ray spectrum! proton kT~1012-13 K (virial
temperature). Electrons get energy from Coulomb collisions with protons and have kT ~ 109 K (100 keV). Get 0 (+ little sync. emission from the +/-).
• If non-thermal then have more above the rest mass energy threshold so make more 0 (and relativistic +/- and e+/-) Mahadevan, Narayan & Krolik 1997; Mahadevan 1999; Oka & Manmota 2003
Mahadevan 1999
Ther
mal
Non
The
rmal
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Observable decays?If the protons are non-thermal then decay gives relativistic e+/- so get synchrotron as well as rays from 0 – predicts non-thermal tail!!!!
OSSE COMPTEL
Egret already rules out nonthermal protons!! Must be thermal if p are heated….
EGRET
Mahadevan 1999
McConnell et al 2000
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Observable decays?
OSSE COMPTEL
EGRET
Pretty close to constraining thermal models – GLAST!!! (30x better)
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• Appearance of BH should depend only on mass and spin (black holes have no hair!)
• Plus mass accretion rate – L/LEdd
• 104-1010 M: Quasars • 3-20 M: Galactic black holes
Black holes