Spectrally resolved CII emission in M~33 ( HerM33es): Physical conditions and kinematics around BCLMP 691

Abstract

This work presents high spectral resolution observations of the \ line at 158 , one of the major cooling lines of the interstellar medium, taken with the HIFI heterodyne spectrometer on the Herschel satellite. In BCLMP 691, an \ region far north (3.3 kpc) in the disk of M 33, the \ and CO line profiles show similar velocities within 0.5 , while the \ line velocities are systematically shifted towards lower rotation velocities by 5. Observed at the same 12" angular resolution, the \ lines are broader than those of CO by about 50% but narrower than the \ lines. The \ line to far-infrared continuum ratio suggests a photoelectric heating efficiency of 1.1%. The data, together with published models indicate a UV field G0 100 in units of the solar neighborhood value, a gas density nH 1000 , and a gas temperature T 200 K. Adopting these values, we estimate the C+ column density to be NC+ ≈ 1.3 × 1017 . The \ emission comes predominantly from the warm neutral region between the \ region and the cool molecular cloud behind it. From published abundances, the inferred C+ column corresponds to a hydrogen column density of NH 2 × 1021 . The CO observations suggest that NH = 2 NH2 3.2 × 1021 and 21cm measurements, also at 12" resolution, yield N ≈ 1.2 × 1021 within the \ velocity range. Thus, some H2 not detected in CO must be present, in agreement with earlier findings based on the SPIRE 250 -- 500 μm emission.