In order to study the initial conditions of massive star formation, we have previously built a sample of 463 high-mass starless clumps (HMSCs) across the inner Galactic plane covered by multiple continuum surveys. Here, we use 13 CO(2-1) line data from the SEDIGISM survey, which covers 78∘ in longitude (−60∘<l<18∘, ∣b∣<0.5∘) with 30′′ resolution, to investigate the global dynamical state of these parsec-scale HMSCs (207 sources with good quality data, mass 102∼105M⊙, size 0.1∼3.6 pc). We find that most HMSCs are highly turbulent with a median Mach number MS∼ 8.2, and 44\%∼55\% of them are gravitationally bound (with virial parameter αvir≲2) if no magnetic fields were present. A median magnetic field strength of 0.33∼0.37 mG would be needed to support these bound clumps against collapse, in agreement with previous observations of magnetic fields in massive star formation regions. Luminosity-to-mass ratio, an important tracer for evolutionary stage, is strongly correlated with dust temperature. Magnetic field strength is also correlated with density. The Larson linewidth-size scaling does not hold in HMSCs. This study advances our understanding of global properties of HMSCs, and our high-resolution ALMA observations are on the way to study the resolved properties.
@article{arxiv.2303.07501,
title = {High-Mass Starless Clumps: Dynamical State and Correlation Between Physical Parameters},
author = {Bo Huang and Ke Wang and Josep Miquel Girart and Wenyu Jiao and Qianru He and Enwei Liang},
journal= {arXiv preprint arXiv:2303.07501},
year = {2023}
}