The warm CO gas along the UV-heated outflow cavity walls: a possible interpretation for the Herschel/PACS CO spectra of embedded YSOs

Abstract

A fraction of the mid-J (J= 14--13 to J= 24--23) CO emission detected by the Herschel/PACS observations of embedded young stellar objects (YSOs) has been attributed to the UV-heated outflow cavity walls. We have applied our newly developed self-consistent models of Photon-Dominated Region (PDR) and non-local thermal equilibrium line Radiative transfer In general Grid (RIG) to the Herschel FIR observations of 27 low mass YSOs and one intermediate mass YSO, NGC7129-FIRS2. When the contribution of the hot component (traced by transitions of J> 24) is removed, the rotational temperature of the warm component is nearly constant with 250 K. This can be reproduced by the outflow cavity wall (n ≥ 106\, cm-3, G0/n ≥-4.5, log G0 3, T gas 300 K, and X(CO) 10-5) heated by a UV radiation field with a black body temperature of 15,000 K or 10,000 K. However, a shock model combined with an internal PDR will be required to determine the quantitative contribution of a PDR relative to a shock to the mid-J CO emission.