Infrared Observations of Circumstellar Molecules

Context-A discrepancy exists between the abundance of ammonia (NH 3 ) derived previously for the circumstellar envelope (CSE) of IRC+10216 from far-IR submillimeter rotational lines and that inferred from radio inversion or mid-infrared (MIR) absorption transitions.Aims-To address the discrepancy described above, new high-resolution far-infrared (FIR) observations of both ortho-and para-NH 3 transitions toward IRC+10216 were obtained with Herschel, with the goal of determining the ammonia abundance and constraining the distribution of NH 3 in the envelope of IRC+10216.Methods-We used the Heterodyne Instrument for the Far Infrared (HIFI) on board Herschel to observe all rotational transitions up to the J = 3 level (three ortho-and six para-NH 3 lines). We Europe PMC Funders Author ManuscriptsEurope PMC Funders Author Manuscripts compared with the new HIFI data, the radio inversion transitions, and the MIR absorption lines in the ν 2 band taken from the literature.Results-We found that NIR pumping is of key importance for understanding the excitation of rotational levels of NH 3 . The derived NH 3 abundances relative to molecular hydrogen were (2.8 ± 0.5) × 10 −8 for ortho-NH 3 and for para-NH 3 , consistent with an ortho/para ratio of 1. These values are in a rough agreement with abundances derived from the inversion transitions, as well as with the total abundance of NH 3 inferred from the MIR absorption lines. To explain the observed rotational transitions, ammonia must be formed near to the central star at a radius close to the end of the wind acceleration region, but no larger than about 20 stellar radii (1σ confidence level).

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Infrared Observations of Circumstellar Molecules

Cited by 2 publications

References 30 publications

Complex Molecules in Carbon-Rich Circumstellar Envelopes

Complex Molecules in Carbon-Rich Circumstellar Envelopes

Herschel/HIFI observations of the circumstellar ammonia lines in IRC+10216

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