Hot Disk Corona and Magnetic Turbulence in Radio-Quiet Active Galactic Nuclei: Observational Constraints

Abstract

We compile a sample consisting of 56 radio-quiet active galactic nuclei so as to investigate statistical properties of hot corona of accretion disks from ASCA observations. The black-hole masses in the sample are estimated via several popular methods and the bolometric luminosities from the multi-wavelength continuum. This allows us to estimate the Eddington ratio ( E L Bol/L Edd) so that the undergoing physical processes can be tested via hard X-ray data. We find a strong correlation between F X L 2-10keV/L Bol and E as F X E-0.64 with a multivariate regression. This indicates that the release of gravitational energy in the hot corona is controlled by the Eddington ratio. On the other hand, the correlation between the hard X-ray spectral index () and E depends critically on the types of objects: is nearly constant ( E0) in broad-line Seyfert 1's (BLS1s), whereas E0.18 in narrow-line Seyfert 1's (NLS1s), although not very significant. We can set constraints on the forms of magnetic stress tensor on the condition that F X is proportional to the fraction f of gravitational energy dissipated in the hot corona and that f is proportional to magnetic energy density in the disk. We find that the shear stress tensor trφ P gas is favored by the correlation in the present sample, where P gas is the gas pressure.

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