Journal
ASTRONOMY & ASTROPHYSICS
Volume 447, Issue 2, Pages 597-607Publisher
EDP SCIENCES S A
DOI: 10.1051/0004-6361:20053593
Keywords
ISM : clouds; ISM : molecules; ISM : individual objects : Chamaeleon I; ISM : individual objects : Chamaeleon III
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We investigate the relationship between the (CO)-O-18 column density and the visual extinction in Chamaeleon I and in a part of the Chamaeleon III molecular cloud. The (CO)-O-18 column densities, N((CO)-O-18), are calculated from J = 1-0 rotational line data observed with the SEST telescope. The visual extinctions, A(v), are derived using JHK photometry from the 2MASS Survey and the NICER color excess technique. In contrast with the previous results of Hayakawa et al. (2001, PASJ, 53, 1109), we find that the average N((CO)-O-18)/A(v) ratios are similar in Cha I and Cha III, and lie close to values derived for other clouds, i.e. N((CO)-O-18) approximate to 2 x 10(14) cm(-2) (A(v) - 2). We find, however, clear deviations from this average relationship towards individual clumps. Larger than average N((CO)-O-18)/A(v) ratios can be found ill Clumps associated with the active star forming region in the northern part of Cha I. On the other hand, some regions in the relatively quiescent Southern part of Cha I show smaller than average N((CO)-O-18)/A(v) ratios and also very shallow proportionality between N((CO)-O-18) and A(v). The shallow proportionality suggests that (CO)-O-18 is heavily depleted in these regions. As the degree of depletion is proportional to the gas density, these regions probably contain very dense, cold cores, which do not stand Out in CO mappings. A comparison with the dust temperature map derived from the ISO data shows that the most prominent of the potentially depleted cores indeed coincides with a dust temperature minimum. It seems therefore feasible to use N((CO)-O-18) and Av data together for identifying cold, dense cores in large scale mappings.
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