Extended Far-Infrared CO Emission in the Orion OMC-1 Core
Abstract
We report on sensitive far-infrared observations of 12CO pure rotational transitions in the OMC-1 core of Orion. The lines were observed with the Long Wavelength Spectrometer (LWS) in the grating mode on board the Infrared Space Observatory (ISO), covering the 43-197 μm wavelength range. The transitions from Jup=14 up to Jup=19 have been identified across the whole OMC-1 core and lines up to Jup= 43 have been detected towards the central region, KL/IRc2. In addition, we have taken high-quality spectra in the Fabry-Perot mode of some of the CO lines. In KL/IRc2 the lines are satisfactorily accounted for by a three-temperature model describing the plateau and ridge emission. The fluxes detected in the high-J transitions (Jup > 34) reveal the presence of a very hot and dense gas component (T=1500-2500 K; N(CO)=2× 1017), probably originating from some of the embedded sources previously observed in the H2 near-infrared lines. At all other positions in the OMC-1 core, we estimate kinetic temperatures ≥ 80$ K and as high as 150 K at some positions around IRc2, from a simple Large-Velocity Gradient model.
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