2015ApJ...802...40L -
Astrophys. J., 802, 40 (2015/March-3)
Sulfur-bearing molecules in massive star-forming regions: observations of OCS, CS, H2S, and SO.
LI J., WANG J., ZHU Q., ZHANG J. and LI D.
Abstract (from CDS):
We studied the sulfur chemistry of massive star-forming regions through single-dish submillimeter spectroscopy. OCS, O13CS, 13CS, H2S, and SO transitions were observed toward a sample of massive star-forming regions with embedded UCH ii or CH ii regions. These sources could be divided into H ii-hot core and H ii-only sources based on their CH3 CN emission. Our results show that the OCS line of thirteen sources is optically thick, with optical depth ranging from 5 to 16. Column densities of these molecules were computed under LTE conditions. CS column densities were also derived using its optically thin isotopologue 13CS. H2S is likely to be the most abundant gas-phase sulfuretted molecule in hot massive cores. Both the column density and abundance of sulfur-bearing molecules decrease significantly from H ii-hot core to H ii-only sources. Ages derived from hot core models appear to be consistent with star formation theories, suggesting that abundance ratios of [CS]/[SO], [SO]/[OCS], and [OCS]/[CS] could be used as chemical clocks in massive star-forming regions.
Abstract Copyright:
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Journal keyword(s):
ISM: abundances - ISM: clouds - ISM: molecules - molecular processes - radio lines: ISM
Simbad objects:
40
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