The X-ray Emission of NGC 5005: An Unobscured Low-Luminosity AGN with a Weakly Accreting Broad-Line Region

Abstract

We present deep Chandra X-ray observations of NGC 5005, a LINER-dominated galaxy previously reported to host a broad Hα emission line. The diffuse soft X-ray emission (<3 keV) extends out to 800 pc, while harder emission (>3 keV) is confined to the central 400 pc. Spatially resolved spectroscopy of the nuclear (r<150 pc) and extended (150<r<500 pc) regions reveals that these are best described by models including both photoionized and thermal plasma components, consistent with excitation by a low-luminosity AGN and shock-heated gas. Narrow-band imaging and excitation maps from the Hubble Space Telescope (HST) support this interpretation, closely matching the X-ray morphology and ionization structure. The detection of a faint hard X-ray nuclear source with Chandra, combined with stringent upper limits from NuSTAR and Swift, and consistency with the X-ray luminosity predicted from the HST [O III]λ5007 emission, indicates that NGC 5005 hosts an intrinsically low-luminosity (L bol 1041 erg s-1), unobscured AGN. Despite the extremely low Eddington ratio inferred from our measurements (λ Edd 5 × 10-6), the presence of a broad Hα line in the optical spectrum suggests the persistence of a thin accretion disk, challenging standard paradigms of accretion flow configurations at such low accretion rates.