High-Mass Starless Clumps: Dynamical State and Correlation Between Physical Parameters

Abstract

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 102 105\ M, size 0.13.6 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 α vir 2) if no magnetic fields were present. A median magnetic field strength of 0.330.37 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.