Active Galactic Nuclei Origin of correlations.

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Presentation transcript:

Active Galactic Nuclei Origin of correlations

Soltan’s argument (1982) “estimating the mass of the ash” If quasar’s are powered by accretion onto a supermassive black hole then such supermassive black holes must exist in our local universe Measure number of quasars vs. redshift and luminosity of quasars  Integrated energy density of radiation = 8.5 x erg/Gpc 3 If 10% of the accreted gas mass was converted to radiation Total mass accumulated in quasars = 8 x M sun /Gpc 3 Mean mass per galaxy = 2 x 10 7 M sun Nearby galaxies should have observable supermassive black holes!

M-L bulge M- 

Supermassive black hole mass = 0.5% of bulge

The SMBH galaxy connection (King & Pounds 2015) Is the supermassive black hole significant Yes! Total energy in radiation >> total mechanical energy of the bulge How does the supermassive black hole couple to the galaxy? Disk of gas around black hole Accretion due to viscosity (MRI, gravitational turbulence?) Viscous heating  bright source of radiation Radiation drives a wind  relativistic outflow wind collides with interstellar gas shock heating and Compton cooling  narrow region hot most of the gas is cold and pushed out by momentum transfer