Computer Science
Scientific paper
Oct 2010
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2010aspc..427..106f&link_type=abstract
Accretion and Ejection in AGN: a Global View. Proceedings of a conference held June 22-26, 2009 in Como, Italy. Edited by Laura
Computer Science
Scientific paper
We present a two-dimensional (2D) model for X-ray absorbing plasma based on well-defined magnetohydrodynamic (MHD) accretion disk winds. These winds are primarily characterized by only two parameters, accretion-rate m(dot) and line of sight (LOS) angle θ, for a given magnetic field geometry specified by a free-parameter q. This model naturally produces density profiles n(r,θ) ∝ f(θ)/r (with q=1) where r is the LOS distance, and f(θ) is its angular dependence. This implies equal column density per log(r) and normalization proportional to m(dot). Our 2D MHD wind geometry is then coupled to XSTAR
photoionization code to compute a global 2D ionization structure of this wind and the columns of observable ionic species (e.g. Fe XVII and Fe XXV). The specific radial-dependence of the wind ionization parameter, ξ ∝ 1/[rf(θ)], leads naturally to a constant-value of dNH/dlog(ξ), also known as absorption measure distribution (AMD), in excellent agreement with some AGNs/quasars observations; e.g. IRAS 13349+2438, MCG-6-30-15, NGC 5548, NGC 7469 and NGC 3783.
Behar Ehud
Contopoulos Ioannis
Fukumura Keigo
Kazanas Demos
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