Mon. Not. R. Astron. Soc., 461, 948-966 (2016/September-1)
A bright year for tidal disruptions.
METZGER B.D. and STONE N.C.
Abstract (from CDS):
When a star is tidally disrupted by a supermassive black hole (SMBH), roughly half of its mass falls back to the SMBH at super-Eddington rates. As this gas is tenuously gravitationally bound and unable to cool radiatively, only a small fraction f_in ≪ 1 may accrete, with the majority instead becoming unbound in an outflow of velocity ∼10^4 km s^-1. The outflow spreads laterally as it expands to large radii, encasing the SMBH and blocking the inner disc's EUV/X-ray radiation, which becomes trapped in a radiation-dominated nebula. Ionizing nebular radiation heats the inner edge of the ejecta, converting the emission to optical/near-UV wavelengths where photons more readily escape due to the lower opacity. This can explain the unexpectedly low and temporally constant effective temperatures of optically discovered tidal disruption event (TDE) flares. For high-mass SMBHs, M_* >= 10^7 M_☉, the ejecta can become fully ionized at an earlier stage, or for a wider range of viewing angles, producing a TDE flare accompanied by thermal X-ray emission. The peak optical luminosity is suppressed as the result of adiabatic losses in the inner disc wind when M_* ≪ 10^7 M_☉, possibly contributing to the unexpected dearth of optical TDEs in galaxies with low-mass SMBHs. In the classical picture, where f_in ≃ 1, TDEs de-spin supermassive SMBHs and cap their maximum spins well below theoretical accretion physics limits. This cap is relaxed in our model, and existing Fe Kα spin measurements provide preliminary evidence that f_in < 1.
© 2016 The Authors Published by Oxford University Press on behalf of the Royal Astronomical Society
accretion, accretion discs - galaxies: active - galaxies: nuclei - X-rays: galaxies - X-rays: galaxies
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