Astronomy and Astrophysics – Astronomy
Scientific paper
Jun 1999
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1999apj...518..740b&link_type=abstract
The Astrophysical Journal, Volume 518, Issue 2, pp. 740-747.
Astronomy and Astrophysics
Astronomy
30
Ism: Abundances, Radio Lines: Ism
Scientific paper
We report detection of the J=15.5-14.5 and 17.5-16.5 transitions of C_8H, a sensitive upper limit for the J=10.5-9.5 transition of C_7H, and measurements of two low-frequency transitions of C_6H in TMC-1. These results give new information on the relative abundances of long carbon-chain radicals in TMC-1 and confirm the recent laboratory-measured hyperfine-splitting constants of C_6H. We compare our results with the recent early-time, gas-phase chemistry model of Herbst and Terzieva and with that of Millar and coworkers. We find the abundance ratios in the longer C_nH chains decline much more rapidly than found for the longer HC_nN chains. Although the decrease in fractional abundance with increasing chain length from C_4H to C_8H is reasonably well reproduced by the models of Herbst and Terzieva, C_8H is observationally somewhat underabundant compared to these calculations. Although we searched for the J=7.5-6.5 and J=10.5-9.5 transitions of C_7H, nearby interference in the case of the higher transition and possible confusion with nearby U-lines prevent us from claiming a detection. However, we are able to report an upper limit to the abundance of C_7H in TMC-1 that is at least a factor of 20 below that of C_5H. The steep fall-off in abundance for the longer C_nH molecules, also found in IRC+10216 by Guélin and coworkers, suggests that the likelihood is small that a large fraction of carbon is locked up in long C_nH chains in dense dark clouds like TMC-1. If long C_nH chains are not present in high abundance in either dark clouds or the envelopes of carbon stars, the possibility that they are present in abundance in the diffuse gas also appears less likely. The cyanopolyynes, which have been detected at relatively high abundances to and including HC_11N, may then be the most abundant carbon-chain molecules in the diffuse gas. These observations and our earlier observations of HC_9N in TMC-1 have allowed us to estimate the line density at a level of T^*_A~1 mK in this dust cloud to be 0.9 lines MHz^-1.
Bell Moley B.
Feldman Paul A.
Gottlieb Carl A.
McCarthy Mary C.
Thaddeus Patrick
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