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Issue A&A
Volume 471, Number 3, September I 2007
Page(s) 849 - 863
Section Interstellar and circumstellar matter
DOI http://dx.doi.org/10.1051/0004-6361:20066608



A&A 471, 849-863 (2007)
DOI: 10.1051/0004-6361:20066608

A survey of [ D $_\mathsf{2}$CO] /[ H $_\mathsf{2}$CO] and [ N $_\mathsf{2}$D+] /[ N $_\mathsf{2}$H+] ratios towards protostellar cores

H. Roberts and T. J. Millar

School of Mathematics and Physics, Queens University Belfast, Belfast, BT7 1NN, UK
    e-mail: helenroberts77@gmail.com

(Received 20 October 2006 / Accepted 18 June 2007)

Abstract
Aims.We use observations and models of molecular D/H ratios to probe the physical conditions and chemical history of the gas and to differentiate between gas-phase and grain-surface chemical processing in star forming regions.
Methods.As a follow up to previous observations of HDCO/H2CO and DCN/HCN ratios in a selection of low-mass protostellar cores, we have measured D2CO/H2CO and N2D+/N2H+ ratios in these same sources. For comparison, we have also measured N2D+/N2H+ ratios towards several starless cores and have searched for N2D+ and deuterated formaldehyde towards hot molecular cores (HMCs) associated with high mass star formation. We compare our results with predictions from detailed chemical models, and to other observations made in these sources.
Results. Towards the starless cores and low-mass protostellar sources we have found very high N2D+ fractionation, which suggests that the bulk of the gas in these regions is cold and heavily depleted. The non-detections of N2D+ in the HMCs indicate higher temperatures. We did detect HDCO towards two of the HMCs, with abundances 1-3% of H2CO. These are the first detections of deuterated formaldehyde in high mass sources since Turner (1990) measured HDCO/H2CO and D2CO/H2CO towards the Orion Compact Ridge.


Key words: ISM: molecules -- ISM: clouds -- ISM: abundances -- stars: formation -- astrochemistry



© ESO 2007


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