THE RATIO N(CO) E(J-K) IN LOCAL MOLECULAR CLOUDS/

We have investigated the ratio of carbon monoxide column density to co lour excess E(J - K) of background field stars in the direction of thr ee different local clouds: the Coalsack, Chamaeleon I (Cha I) and R Co ronae Australis (R CrA). For these dark clouds a uniform set of colour excess values towards highly reddened background stars is available f rom the literature based on near-infrared photometry data. Using the 1 5-m Swedish-ESO Submillimeter Telescope (SEST), we have observed towar ds these background stars the (CO)-C-12, (CO)-C-13 and (CO)-O-18 J = 1 - 0 emission lines and, in a few selected directions, the J = 1 - 0 t ransition of (CO)-O-17. We have also derived the N(CO)/A(V) ratio and, based on a range of assumed gas-to-dust-ratios, the N(CO)/N(H-2) rati o. We find that the N(CO) to E(J - K) ratio varies from cloud to cloud : it is a factor of similar to 2 larger in Cha I and R CrA than in the Coalsack. Our results can be interpreted in two alternative ways: fir stly that the N(CO)/N(H-2) ratio is higher in active star forming regi ons (Cha I, R CrA, and L 1641) than in more quiescent regions without star formation (Coalsack) and secondly that the ratio N(H-2)/E(J - K) changes from cloud to cloud and is higher in active star forming regio ns than in quiescent clouds.