MAPPING OBSERVATIONS OF DNC AND HN~(13)C IN DARK CLOUD CORES

摘要

We present results of mapping observations of the DNC, HN~(13)C, and H~(13)CO~+ lines (J = 1-0) toward four nearby dark cloud cores, TMC-1, L1512, L1544, and L63, along with observations of the DNC and HN~(13)C lines (J = 2-1) toward selected positions. By use of statistical equilibrium calculations based on the large velocity gradient (LVG) model, the H_2 densities are derived to be (1.4-5.5) x 10~5 cm~(-3), and the [DNC]/ [HN~(13)C] ratios are derived to be 1.25-5.44, with a typical uncertainty of a factor of 2. The observed [DNC]/ [HNC] ratios range from 0.02 to 0.09, assuming a [~(12)C]/[~(13)C] ratio of 60. Distributions of DNC and HN~(13)C are generally similar to each other, whereas the distribution of H~(13)CO~+ is more extended than those of DNC and HN~(13)C, indicating that they reside in a more inward part of the cores than HCO~+. The [DNC]/[HN~(13)C] ratio is rather constant within each core, although small systematic gradients are observed in TMC-1 and L63. In particular, no such systematic gradient is found in L1512 and L1544, where a significant effect of depletion of molecules is reported toward the central part of the cores. This suggests that the [DNC]/[HNC] ratio would not be very sensitive to the depletion factor, unlike the [DCO~+]/[HCO~+] ratio. On the other hand, the core-to-core variation of the [DNC]/[HNC] ratio, which ranges over an order of magnitude, is more remarkable than the variation within each core. These results are interpreted qualitatively by a combination of three competing time-dependent processes: gas-phase deuterium fractionation, depletion of molecules onto grain surfaces, and dynamical evolution of a core.