Astronomy and Astrophysics – Astrophysics
Scientific paper
2006-07-26
Astrophys.J.648:L131-L134,2006
Astronomy and Astrophysics
Astrophysics
4 pages, 2 figures, accepted for publication in ApJL
Scientific paper
10.1086/507887
We quantitatively examine the significance of star formation triggered in the swept-up shell around an expanding HII region. If the swept-up molecular gas is sufficiently massive, new OB stars massive enough to repeat the triggering process will form in the shell. We determine the lower limit (M_thr) for the mass of the star that sweeps up the molecular gas, where at least one new star with mass M_* > M_thr forms after the shell fragmentation. To calculate the threshold stellar mass, M_thr, we examine how massive molecular shells can form around various central stars, by performing detailed numerical radiation hydrodynamics calculations. The mass of the photodissociated gas is generally larger than the mass of the photoionized gas. However, the swept-up molecular mass exceeds the photodissociated mass with a higher-mass star of M_* > 20 Msun. The accumulated molecular mass generally increases with the stellar mass, and amounts to 10^{4-5} Msun for M_* > 20 Msun with an ambient density of n \sim 100/cc. The threshold stellar mass is M_thr \sim 18 Msun with the star-formation efficiency of \epsilon \sim 0.1 and n \sim 100/cc. We examine the generality of this mode of run-away triggering for different sets of parameters, and found that M_thr \sim 15-20 Msun in various situations. If the ambient density is too high or the star-formation efficiency is too low, the triggering is not run-away, but a single event.
Hosokawa Takashi
Inutsuka Shu-ichiro
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