Herschel-PACS Observations of Far-IR CO Line Emission in NGC 1068: Highly Excited Molecular Gas in the Circumnuclear Disk

Abstract

We report the detection of far-IR CO rotational emission from the prototypical Seyfert 2 galaxy NGC 1068. Using Herschel-PACS, we have detected 11 transitions in the Jupper=14-30 (Eupper/kB = 580-2565 K) range, all of which are consistent with arising from within the central 10" (700 pc). The detected transitions are modeled as arising from 2 different components: a moderate excitation (ME) component close to the galaxy systemic velocity, and a high excitation (HE) component that is blueshifted by ~80 km s-1. We employ a large velocity gradient (LVG) model and derive nH2~105.6 cm-3, Tkin~170 K, and MH2~106.7 Msun for the ME component, and nH2~106.4 cm-3, Tkin~570 K, and MH2~105.6 Msun for the HE component, although for both components the uncertainties in the density and mass are plus/minus (0.6-0.9) dex. We compare the CO line profiles with those of other molecular tracers observed at higher spatial and spectral resolution, and find that the ME transitions are consistent with these lines arising in the ~200 pc diameter ring of material traced by H2 1-0 S(1) observations. The blueshift of the HE lines may also be consistent with the bluest regions of this H2 ring, but a better kinematic match is found with a clump of infalling gas ~40 pc north of the AGN. We discuss the prospects of placing the HE component near the AGN, and conclude that while the moderate thermal pressure precludes an association with the ~1 pc radius H2O maser disk, the HE component could potentially be located only a few parsecs more distant from the AGN, and might then provide the NH~1025 cm-2 column obscuring the nuclear hard X-rays. Finally, we also report sensitive upper limits extending up to Jupper=50, which place constraints on a previous model prediction for the CO emission from the X-ray obscuring torus. [Abridged]