Fragmentation of rotating protostellar clouds
Abstract
With a three-dimensional hydrodynamic computer code, the behavior of rotating, isothermal gas clouds as they collapse from Jeans unstable configurations is examined in order to determine whether they are susceptible to fragmentation during the initial dynamic collapse phase of evolution. It is found that a gas cloud will not fragment unless (1) it begins collapsing from a radius much smaller than the Jeans radius (i.e., the cloud initially encloses many Jeans masses) and (2) irregularities in the cloud's initial structure (specifically, density inhomogeneities) enclose more than one Jeans mass of material. Instead of fragmenting, most of the models collapse to a ring configuration. The rings appear to be less susceptible to fragmentation from arbitrary perturbations in their structure than has previously been indicated in other work. Because the models, which include the effects of gas pressure, do not readily fragment during a phase of dynamic collapse, it is suggested that gas clouds in the galactic disk undergo fragmentation only during quasi-equilibrium phases of their evolution.
- Publication:
-
The Astrophysical Journal
- Pub Date:
- February 1980
- DOI:
- 10.1086/157688
- Bibcode:
- 1980ApJ...235..866T
- Keywords:
-
- Interstellar Gas;
- Protostars;
- Stellar Evolution;
- Stellar Rotation;
- Stellar Structure;
- Computer Programs;
- Gas Pressure;
- Gravitational Collapse;
- Hydrodynamics;
- Hydrogen Clouds;
- Molecular Gases;
- Nebulae;
- Stellar Mass;
- Astrophysics