A feedback-driven bubble G24.136+00.436: a possible site of triggered star formation

Abstract

We present a multi-wavelength study of the IR bubble G24.136+00.436. The J=1-0 observations of 12CO, 13CO and C18O were carried out with the Purple Mountain Observatory 13.7 m telescope. Molecular gas with a velocity of 94.8 km s-1 is found prominently in the southeast of the bubble, shaping as a shell with a total mass of 2×104 M. It is likely assembled during the expansion of the bubble. The expanding shell consists of six dense cores. Their dense (a few of 103 cm-3) and massive (a few of 103 M) characteristics coupled with the broad linewidths (> 2.5 km s-1) suggest they are promising sites of forming high-mass stars or clusters. This could be further consolidated by the detection of compact HII regions in Cores A and E. We tentatively identified and classified 63 candidate YSOs based on the Spitzer and UKIDSS data. They are found to be dominantly distributed in regions with strong emission of molecular gas, indicative of active star formation especially in the shell. The HII region inside the bubble is mainly ionized by a 8V star(s), of the dynamical age 1.6 Myr. The enhanced number of candidate YSOs and secondary star formation in the shell as well as time scales involved, indicate a possible scenario of triggering star formation, signified by the "collect and collapse" process.