A New Derivation of the Extinct ion-to-CO Column Density Ratio in the Chamaeleon I Dark Cloud

Abstract

We have analyzed new datasets of ¹³CO (J = 1−0) and C¹⁸O (J = 1−0) emission obtained with NANTEN and visual extinction, A_V, derived from DENIS J-band observations in the Chamaeleon I dark cloud. The column densities of both molecular isotopes, N(¹³CO) and N(C¹⁸O, have been derived assuming LTE. Both N(¹³CO) and N(C¹⁸O are linearly correlated with A_V in the range A_V≲ 10 mag. We established the relationships N(¹³CO) (cm^-2)=(1.2± 0.1)× 10¹⁵A_V(mag)+(0.7± 0.3)× 10¹⁵ and N(C^18O) (cm^-2)=(3.5± 0.3)× 10¹⁴A_V(mag)-(5.7± 1.3)× 10¹⁴. In a region of clustered T Tauri stars, however, both the A_V-N(¹³CO) and A_V-N(C^18O) relationships are by a factor of ∼ 2 steeper than the above. This may be mainly due to underestimates of the A_V values, and the J-band star count might deserve a more careful examination for possible underestimates of associated young stars. Compared with the relationships for the other clouds, the slope of the A_V-N(¹³CO) relationship is relatively shallower and that of the A_V-N(C^18O) relationship in a non-cluster forming region is slightly steeper. These facts suggest that cloud-to-cloud variation is significant in the A_V-N(CO) relationships.