The ionizing source of the nucleus of NGC 1097

We present new observations in X-ray and optical/ultraviolet of the nucleus of NGC 1097 known for the abrupt appearance of broad, double-peaked Balmer lines in its spectrum in 1991. These new observations are used to construct the spectral energy distribution (SED) of the central engine. From the SED we infer that this AGN is radio-loud and has a bolometric luminosity L_Bol ∼ 10⁴² erg s^-1, implying a low Eddington ratio of L_Bol/L_Edd ∼ 10^-4. These results suggest that the central ionizing source is an advection-dominated accretion flow (ADAF) in the form of an ellevated structure which photoionizes an outer thin disk. We fit a simplified ADAF model to the SED and obtain limits on the values of the mass accretion rate dot{M} and accretion efficiency η, namely dot{M}/{dot{M}_Edd} ≳ 10^-3 and η ≲ 10^-2. We identify an "energy budget" problem: if the central photoionizing source is isotropic, the covering factor of the line-emitting portion of the thin accretion disk is ≈6, i. e. the central source accounts for only 20% of the energy emitted in the double-peaked Balmer lines.