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A molecular-line study of clumps with embedded high-mass protostar candidates

Brand, J. and Cesaroni, R. and Palla, F. and Molinari, S. (2001) A molecular-line study of clumps with embedded high-mass protostar candidates. Astronomy and Astrophysics, 370 (1). pp. 230-264. ISSN 0004-6361.

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We present molecular line observations made with the IRAM 30-m telecopes of the immediate surroundings of a sample of 11 candidate high-mass protostars. These observations are part of an effort to clarify the evolutionary status of a set of objects which we consider to be precursors of UC HII regions. In a preceding series of papers we have studied a sample of objects, which on the basis of their IR colours are likely to be associated with compact molecular clouds. The original sample of 260 objects was divided approximately evenly into a High group, with IR colour indices [25-12] ≥ 0.57 and [60-12] ≥ 1.3, and a Low group with complementary colours. The FIR luminosity of the Low sources, their distribution in the IR colour-colour diagram, and their lower detection rate in H_2O maser emission compared to the High sources, led to the hypothesis that the majority of these objects represent an earlier stage in the evolution than the members of the High group, which are mostly identifiable with UC HII regions. Subsequent observations led to the selection of 12 Low sources that have FIR luminosities indicating the presence of B2.5 to O8.5 V0 stars, are associated with dense gas and dust, have (sub-)mm continuum spectra indicating temperatures of ~30 K, and have no detectable radio continuum emission. One of these sources has been proposed by us to be a good candidate for the high-mass equivalent of a Class 0 object. In the present paper we present observations of the molecular environment of 11 of these 12 objects, with the aim to derive the physical parameters of the gas in which they are embedded, and to find further evidence in support of our hypothesis that these sources are the precursors to UC HII regions. We find that the data are consistent with such an interpretation. All observed sources are associated with well-defined molecular clumps. Masses, sizes, and other parameters depend on the tracer used, but typically the cores have average diameters of ~0.5-1 pc (with a range of 0.2 to 2.2 pc), and masses of a few tens to a few thousand solar masses. Compared to a similar analysis of High sources, the present sample has molecular clumps that are more massive, larger, cooler, and less turbulent. They also tend to have a smaller ratio of virial-to-luminous mass, indicating they are less dynamically stable than their counterparts in which the High sources are embedded. The large sizes suggest these clumps should still undergo substantial contraction (their densities are ~10 times smaller than those of the High sources). The lower temperatures and small linewidths are also expected in objects in an earlier evolutionary state. In various sources indications are found for outflowing gas, though its detection is hampered by the presence of multiple emission components in the line spectra. There are also signs of self-absorption, especially in the spectra of ^(13)CO and HCO+. We find that the masses of the molecular clumps associated with our objects increase with L_(fir) (M_(clump) ∝ L^(1.17)_(fir)), and that there is a (weak) relation between the clump mass and the mass of the embedded protostellar object M_(proto) ∝ M^(0.30)_(clump). The large amount of observational data is necessarily presented in a compact, reduced form. Yet we supply enough information to allow further study. These data alone cannot prove or disprove the hypothesis that among these objects a high-mass protostar is truly present. More observations, at different wavelenghts and spatial resolutions are needed to provide enough constraints on the number of possible interpretations.

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Additional Information:© 2001 ESO. Article published by EDP Sciences. Received 2 October 2000; Accepted 29 January 2001; Published online 15 April 2001. We thank Jan Wouterloot for the KOSMA observations. The KOSMA radio telescope at Gornergrat-Süd Observatory is operated by the University of Köln, and supported by the Deutsche Forschungsgemeinschaft through grant SFB-301, as well as by special funding from the Land Nordrhein-Westfalen. The Observatory is administered by the Internationale Stiftung Hochalpine Forschungsstationen Jungfraujoch und Gornergrat, Bern, Switzerland.
Group:Infrared Processing and Analysis Center (IPAC)
Funding AgencyGrant Number
Deutsche ForschungsgemeinschaftSFB-301
Land Nordrhein-WestfalenUNSPECIFIED
Subject Keywords:ISM: clouds - molecules, radio lines: ISM
Issue or Number:1
Record Number:CaltechAUTHORS:20180213-160411466
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Official Citation:A molecular-line study of clumps with embedded high-mass protostar candidates J. Brand, R. Cesaroni, F. Palla and S. Molinari A&A, 370 1 (2001) 230-264. DOI:
Usage Policy:No commercial reproduction, distribution, display or performance rights in this work are provided.
ID Code:84817
Deposited By: Tony Diaz
Deposited On:14 Feb 2018 00:20
Last Modified:03 Oct 2019 19:23

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