The Astrophysical Journal (Jan 2022)
Mapping NGC 7027 in New Light: CO+ and HCO+ Emission Reveal Its Photon- and X-Ray-dominated Regions
Abstract
The young and well-studied planetary nebula (PN) NGC 7027 harbors significant molecular gas that is irradiated by luminous, pointlike UV (central star) and diffuse (shocked nebular) X-ray emission. This nebula represents an excellent subject to investigate the molecular chemistry and physical conditions within photon- and X-ray-dominated regions (PDRs and XDRs). As yet, the exact formation routes of CO ^+ and HCO ^+ in PN environments remain uncertain. Here we present ∼2″ resolution maps of NGC 7027 in the irradiation tracers CO ^+ and HCO ^+ obtained with the IRAM NOEMA interferometer, along with SMA CO and HST 2.12 μ m H _2 data for context. The CO ^+ map constitutes the first interferometric map of this molecular ion in any PN. Comparison of CO ^+ and HCO ^+ maps reveals strikingly different emission morphologies, as well as a systematic spatial displacement between the two molecules; the regions of brightest HCO ^+ , found along the central waist of the nebula, are radially offset by ∼1″ (∼900 au) outside the corresponding CO ^+ emission peaks. The CO ^+ emission furthermore precisely traces the inner boundaries of the nebula’s PDR (as delineated by near-IR H _2 emission), suggesting that central star UV emission drives CO ^+ formation. The displacement of HCO ^+ radially outward with respect to CO ^+ is indicative that dust-penetrating soft X-rays are responsible for enhancing the HCO ^+ abundance in the surrounding molecular envelope, forming an XDR. These interferometric CO ^+ and HCO ^+ observations of NGC 7027 thus clearly establish the spatial distinction between the PDR and XDR formed (respectively) by intense UV and X-ray irradiation of molecular gas.
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