The Astrophysical Journal (Jan 2023)
Multiscale Dynamical Scenario of High-mass Star Formation in an IRDC Filament G34
Abstract
There is growing evidence that high-mass star formation (HMSF) is a multiscale, dynamical process in molecular clouds, where filaments transport gas material between larger and smaller scales. We analyze here multiscale gas dynamics in an HMSF filamentary cloud, G034.43+00.24 (G34), using APEX observations of the C ^18 O (2−1), HCO ^+ /H ^13 CO ^+ (3−2), and HCN/H ^13 CN (3−2) lines. We find large-scale, filament-aligned velocity gradients from C ^18 O emission, which drive filamentary gas inflows onto dense clumps in the middle ridge of G34. The nature of these inflows is gravity driven. We also find clump-scale gas infall in the middle ridge of the MM2, MM4, and MM5 clumps from other lines. Their gas infall rates could depend on large-scale filamentary gas inflows since the infall/inflow rates on these two scales are comparable. We confirm that the multiscale, dynamical HMSF scenario is at work in G34. It could be driven by gravity up to the filament scale, beyond which turbulence originating from several sources, including gravity, could be in effect in G34.
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