The Ionization Fraction in the Obscuring `Torus' of an Active Galactic Nucleus
Abstract
In this paper, we report VLBA radio maps at three frequencies and an ASCA X-ray spectrum of the water megamaser galaxy NGC 2639, which is believed to contain an edge-on viewed accretion disk. The radio observations reveal a compact (< 0.2 pc) nuclear source with a spectrum that turns over sharply near 5 GHz. The X-ray spectrum shows emission in excess of a power-law model at energies greater than 4 keV; we interpret this excess as compact, nuclear, hard X-ray emission with the lower energies photoelectrically absorbed by an equivalent hydrogen column of 5 × 1023 cm-2. If we assume that the turnover in the radio spectrum is caused by free-free absorption and that both the free-free and photoelectric absorptions are produced by the same gaseous component, the ratio ∫ ne2 dl/∫ nH dl may be determined. If the masing molecular gas is responsible for both absorptions, the required ionization fraction is 1.3 × 10-5, which is comparable to the theoretical upper limit derived by Neufeld, Maloney & Conger (1994) for X-ray heated molecular gas. The two values may be reconciled if the molecular gas is very dense -- nH2 109 cm-3. The measured ionization fraction is also consistent with the idea that both absorptions occur in a hot ( 6,000K), weakly ionized (ionization fraction a few times 10-2) atomic region that may co-exist with the warm molecular gas. If this is the case, the absorbing gas is 1 pc from the nucleus. If our line of sight passes through more than one phase, the atomic gas probably dominates the free-free absorption while the molecular gas may dominate the photoelectric absorption.
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