Journal
ASTROPHYSICAL JOURNAL
Volume 688, Issue 1, Pages 597-615Publisher
IOP PUBLISHING LTD
DOI: 10.1086/591842
Keywords
circumstellar matter; open clusters and associations: individual (NGC 2232); planetary systems: formation; planetary systems: protoplanetary disks; stars: pre-main-sequence
Categories
Funding
- Spitzer GO [1320379]
- NASA Astrophysics Theory [NAG5-13278]
- NASA [NNG06GH25G]
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We describe Spitzer IRAC and MIPS observations of the nearby 25 Myr old open cluster NGC 2232. Combining these data with ROSAT All-Sky Survey observations, proper motions, and optical photometry/spectroscopy, we construct a list of highly probable cluster members. We identify one A-type star, HD 45435, that has definite excess emission at 4.5-24 mu m indicative of debris from terrestrial planet formation. We also identify 2-4 late-type stars with possible 8 mu m excesses and 8 early-type stars with definite 24 mu m excesses. Constraints on the dust luminosity and temperature suggest that the detected excesses are produced by debris disks. From our sample of B andA stars, stellar rotation appears to be correlated with 24 mu m excess, a result that would be expected if massive primordial disks evolve into massive debris disks. To explore the evolution of the frequency and magnitude of debris around A-type stars, we combine our results with data for other young clusters. The frequency of debris disks around A-type stars appears to increase from similar to 25% at 5 Myr to similar to 50%-60% at 20-25 Myr. Older A-type stars have smaller debris disk frequencies: similar to 20% at 50-100 Myr. For these ages, the typical level of debris emission increases from 5 to 20 Myr and then declines. Because 24 mu m dust emission probes icy planet formation around A- type stars, our results suggest that the frequency of icy planet formation is eta(i) greater than or similar to 0.5-0.6. Thus, most A-type stars (approximate to 1.5-3 M-circle dot) produce icy planets.
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