Galactic flows and the formation of stellar clusters
Abstract
We investigate the formation of stellar clusters from a Galactic scale SPH simulation. The simulation traces star formation over a 5.6 Myr timescale, with local gravitational instabilities resulting in ~ 105 solar masses of star formation in the form of sink particles. We investigate the time evolution of the physical properties of the forming clusters including their half-mass radii, their energies and the depletion time of the gas. Star formation is driven by the large scale flows which compress the gas to higher densities where self gravity takes over and collapse occurs. We show that the more massive clusters (up to ~ 2 × 104 solar masses) gather their material from of order 10 pc due to these large scale motions associated with the spiral arm passage and shock. The bulk of the gas becomes gravitationally bound near 1-2 Myr before sink formation, and in the absence of feedback, significant accretion ongoing on longer timescales. We trace the hierarchical merging process of cluster formation which naturally results in age spreads of order the crossing time of the original region which provides the gas reservoir for the cluster.
- Publication:
-
Formation, Evolution, and Survival of Massive Star Clusters
- Pub Date:
- March 2017
- DOI:
- 10.1017/S1743921315009394
- Bibcode:
- 2017IAUS..316..184S
- Keywords:
-
- stars: formation;
- ISM: clouds;
- (Galaxy:) open clusters and associations: general