NuSTAR Discovery of Dead Quasar Engine in Arp 187

Abstract

Recent active galactic nucleus (AGN) and quasar surveys have revealed a population showing rapid AGN luminosity variability by a factor of 10. Here we present the most drastic AGN luminosity decline by a factor of 103 constrained by a NuSTAR X-ray observation of the nearby galaxy Arp 187, which is a promising "dead" quasar whose current activity seems quiet but whose past activity of Lbol 1046 erg s-1 is still observable at a large scale by its light echo. The obtained upper bound of the X-ray luminosity is (L 2-10 keV/ erg s-1) < 41.2, corresponding to (Lbol/ erg s-1) < 42.5, indicating an inactive central engine. Even if a putative torus model with NH 1.5 × 1024 cm-2 is assumed, the strong upper-bound still holds with (L 2-10 keV/ erg s-1) < 41.8 or (Lbol/ erg s-1) < 43.1. Given the expected size of the narrow line region, this luminosity decrease by a factor of 103 must have occurred within 104 yr. This extremely rapid luminosity/accretion shutdown is puzzling and it requires one burst-like accretion mechanism producing a clear outer boundary for an accretion disk. We raise two possible scenarios realizing such an accretion mechanism: a mass accretion 1) by the tidal disruption of a molecular cloud and/or 2) by the gas depletion as a result of vigorous nuclear starformation after rapid mass inflow to the central engine.