Astronomy and Astrophysics – Astrophysics
Scientific paper
2002-04-09
Mon.Not.Roy.Astron.Soc. 334 (2002) 693
Astronomy and Astrophysics
Astrophysics
7 pages, 6 figures, MNRAS in press
Scientific paper
10.1046/j.1365-8711.2002.05559.x
Criteria for gravitational collapse of expanding shells in rotating, shearing galaxy disks were determined using three-dimensional numerical simulations in the thin shell approximation. The simulations were run over a grid of 7 independent variables, and the resultant probabilities for triggering and unstable masses were determined as functions of 8 dimensionless parameters. When the ratio of the midplane gas density to the midplane total density is small, an expanding shell reaches the disk scale height and vents to the halo before it collapses. When the Toomre instability parameter Q, or a similar shear parameter, Q_A, are large, Coriolis forces and shear stall or reverse the collapse before the shell accumulates enough mass to be unstable. With large values of C=c_sh/(GL)^0.2, for rms velocity dispersion c_sh in the swept-up matter and shell-driving luminosity L, the pressure in the accumulated gas is too large to allow collapse during the expansion time. Considering ~5000 models covering a wide range of parameter space, the common properties of shell collapse as a mechanism for triggered star formation are: (1) the time scale is 4*sqrt(C/2 pi G rho) for ambient midplane density rho, (2) the total fragment mass is ~2x10^7 Msun, of which only a small fraction is likely to be molecular, (3) the triggering radius is ~2 times the scale height, and the triggering probability is ~0.5 for large OB associations. Star formation triggered by shell collapse should be most common in gas-rich galaxies, such as young galaxies or those with late Hubble types.
Ehlerova Sona
Elmegreen Bruce G.
Palous Jan
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