The Bolocam Galactic Plane Survey. XIV. Physical Properties of Massive Starless and Star Forming Clumps

Abstract

We sort 4683 molecular clouds between 10< <65 from the Bolocam Galactic Plane Survey based on observational diagnostics of star formation activity: compact 70 μ m sources, mid-IR color-selected YSOs, H2O and CH3OH masers, and UCHII regions. We also present a combined NH3-derived gas kinetic temperature and H2O maser catalog for 1788 clumps from our own GBT 100m observations and from the literature. We identify a subsample of 2223 (47.5\%) starless clump candidates, the largest and most robust sample identified from a blind survey to date. Distributions of flux density, flux concentration, solid angle, kinetic temperature, column density, radius, and mass show strong (>1 dex) progressions when sorted by star formation indicator. The median starless clump candidate is marginally sub-virial (α 0.7) with >75\% of clumps with known distance being gravitationally bound (α < 2). These samples show a statistically significant increase in the median clump mass of M 170-370 M from the starless candidates to clumps associated with protostars. This trend could be due to (i) mass growth of the clumps at M200-440 Msun Myr-1 for an average free-fall 0.8 Myr time-scale, (ii) a systematic factor of two increase in dust opacity from starless to protostellar phases, (iii) and/or a variation in the ratio of starless to protostellar clump lifetime that scales as M-0.4. By comparing to the observed number of CH3OH maser containing clumps we estimate the phase-lifetime of massive (M>103 M) starless clumps to be 0.37 0.08 \ Myr \ (M/103 \ M)-1; the majority (M<450 M) have phase-lifetimes longer than their average free-fall time.