Variations of the HCO+, HCN, HNC, N2H+ and NH3 deuterium fractionation in high-mass star-forming regions

Abstract

We use spectra and maps of the J=1-0 and J=2-1 DCO+, DCN, DNC, N2D+ lines and 111-101 ortho- and para-NH2D lines, obtained with the IRAM-30m telescope, as well as observations of their hydrogenated isotopologues to study deuteration processes in five high-mass star-forming regions. The temperature was estimated from CH3CCH lines, also observed with the IRAM-30m telescope, and from NH3 lines, observed with the 100-m radio telescope in Effelsberg, as well as using the integrated intensity ratios of the J=1-0 H13CN and HN13C lines and their main isotopologues. Applying a non-LTE radiative transfer model with RADEX, the gas density and the molecular column densities were estimated. D/H ratios are 0.001-0.05 for DCO+, 0.001-0.02 for DCN, 0.001-0.05 for DNC and 0.02-0.4 for NH2D. The D/H ratios decrease with increasing temperature in the range of 20-40 \,K and slightly vary at densities n( H2) 104-106\, cm-3. The deuterium fraction of N2H+ is 0.008-0.1 at temperatures in the range of 20-25\, K and at a density of 105\, cm-3. We also estimate relative abundances and find 10-11-10-9 for DCO+ and DNC, 10-11-10-10 for N2D+ and 10-10-10-8 for NH2D. The relative abundances of these species decrease with increasing temperature. However, the DCN/H2 ratio is almost constant ( 10-10). The observational results agree with the predictions of chemical models (although in some cases there are significant differences).