Kinematics $\&$ Star Formation in the Hub-Filament System G6.55-0.1 (2404.07640v1)

Abstract: Hub-filament systems (HFSs) being the potential sites of formation of star clusters and high mass stars, provide a test bed for the current theories that attempt to explain star formation globally. It is thus important to study a large number of HFSs using both intensity and velocity information to constrain these objects better observationally. We present here a study of the hub-filament system associated with G6.55-0.1 using newly obtained observations of radio continuum and $J$=2--1 transition of CO, $^{13}$CO, and C$^{18}$O. The radio continuum maps show multiple peaks that coincide with far-infrared dust continuum peaks indicating the presence of more than one young massive stars in the hub of the HFS. We used the velocity information from the C$^{18}$O(2--1) map to (a) show that the source G6.55-0.1 is not physically associated with the SNR W28 and (b) disentangle and identify the velocity components genuinely associated with G6.55-0.1. Among the velocity-coherent structures identified, the two filaments at 13.8 and 17.3 km s$^{-1}$ contribute a total mass accretion rate of $\sim$3000 M$_{\odot}$ Myr$^{-1}$ to the hub. Both the filaments also show V-shaped structure, characteristic of gravitational collapse, in their velocity profile at the location of the hub. Estimated mass per unit length of the segments of the filaments are smaller than the critical line masses derived from virial equilibrium considerations. This suggests that while the filaments are not gravitationally collapsing as a whole, the spectra from the hub indicate that the inner parts are dynamically decoupled and collapsing to form stars.