Dense Molecular Clumps with Large Blue Asymmetries: Evidence for Collapse

Abstract

An analysis of the Millimetre Astronomy Legacy Team 90 GHz (MALT90) survey has produced a sample of 27 candidate dense molecular clumps with large collapse motions, as revealed by large ``blue'' asymmetrical line profiles of the optically thick \, line. %with respect to the optically thin \, line. New, more sensitive molecular line observations of this sample, conducted with the Mopra 22-m telescope, confirm the blue asymmetries in the \, line profiles, with large, positive values of the asymmetry parameter A (AHCO+ = 0.690.01), and positive, but smaller asymmetries in the \, and \, lines: (AHCN = 0.350.01 and AHNC = 0.280.01), as expected for a less optically thick tracer in collapsing clumps. The small, positive mean asymmetry parameters for \, and , AC2H = 0.150.02 and AH13CO+ = 0.180.03, likely indicate slightly optically thick emission for at least some clumps. The hyperfine ratios for \, are in their optically thin, LTE, values, but for \ they are not; the F=1 1 hyperfine line shows abnormally weak intensities. A simple two-component model shows that self-absorption of the background F = 1 1 hyperfine line by the main F = 2 1 hyperfine line of a cold, foreground, redshifted cloud can reproduce the observed \, hyperfine intensities and match the \, and \, line profiles. All of these results are consistent with self-absorption of the optically thick lines on the red side of the profile, as expected for collapsing clumps. A simple two-cloud model suggests that this sample represents dense clumps with extreme collapse velocities, Vinf 2.4 .