Lin, Y., Wyrowski, F., Liu, H. B., Izquierdo, A. F., Csengeri, T., Leurini, S. and Menten, K. M. (2022). The evolution of temperature and density structures of OB cluster-forming molecular clumps. Astron. Astrophys., 658. LES ULIS CEDEX A: EDP SCIENCES S A. ISSN 1432-0746

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Abstract

Context. OB star clusters originate from parsec-scale massive molecular clumps, while individual stars may form in less than or similar to 0.1 pc scale dense cores. The thermal properties of the clump gas are key factors governing the fragmentation process, and are closely affected by gas dynamics and feedback of forming stars. Aims. We aim to understand the evolution of temperature and density structures on the intermediate-scale (less than or similar to 0.1-1 pc) extended gas of massive clumps. This gas mass reservoir is critical for the formation of OB clusters, due to their extended inflow activities and intense thermal feedback during and after formation. Methods. We performed -0.1 pc resolution observations of multiple molecular line tracers (e.g., CH3CCH, H2CS, CH3CN, CH3OH) that cover a wide range of excitation conditions, toward a sample of eight massive clumps. The sample covers different stages of evolution, and includes infrared-weak clumps and sources that are already hosting an HII region, spanning a wide luminosity-to-mass ratio (L/M) range from similar to 1 to similar to 100 (L-circle dot/M-circle dot). Based on various radiative transfer models, we constrain the gas temperature and density structures and establish an evolutionary picture, aided by a spatially dependent virial analysis and abundance ratios of multiple species. Results. We determine temperature profiles varying in the range 30-200 K over a continuous scale, from the center of the clumps out to 0.3-0.4 pc radii. The clumps' radial gas density profiles, described by radial power laws with slopes between -0.6 and similar to-1.5, are steeper for more evolved sources, as suggested by results based on dust continuum, representing the bulk of the gas (similar to 10(4) cm(-3)), and on CH3OH lines probing the dense gas (greater than or similar to 10(6)-10(8) cm(-3)) regime. The density contrast between the dense gas and the bulk gas increases with evolution, and may be indicative of spatially and temporally varying star formation efficiencies. The radial profiles of the virial parameter show a global variation toward a sub-virial state as the clump evolves. The linewidths probed by multiple tracers decline with increasing radius around the central core region and increase in the outer envelope, with a slope shallower than the case of the supersonic turbulence (sigma(v) proportional to r(0.5)) and the subsonic Kolmogorov scaling (sigma(v) proportional to r(0.33)). In the context of evolutionary indicators for massive clumps, we also find that the abundance ratios of [CCH]/[CH3OH] and [CH3CN]/[CH3OH] show correlations with clump L/M.

Item Type: Journal Article
Creators:
CreatorsEmailORCIDORCID Put Code
Lin, Y.UNSPECIFIEDUNSPECIFIEDUNSPECIFIED
Wyrowski, F.UNSPECIFIEDUNSPECIFIEDUNSPECIFIED
Liu, H. B.UNSPECIFIEDUNSPECIFIEDUNSPECIFIED
Izquierdo, A. F.UNSPECIFIEDUNSPECIFIEDUNSPECIFIED
Csengeri, T.UNSPECIFIEDUNSPECIFIEDUNSPECIFIED
Leurini, S.UNSPECIFIEDUNSPECIFIEDUNSPECIFIED
Menten, K. M.UNSPECIFIEDUNSPECIFIEDUNSPECIFIED
URN: urn:nbn:de:hbz:38-691678
DOI: 10.1051/0004-6361/202142023
Journal or Publication Title: Astron. Astrophys.
Volume: 658
Date: 2022
Publisher: EDP SCIENCES S A
Place of Publication: LES ULIS CEDEX A
ISSN: 1432-0746
Language: English
Faculty: Unspecified
Divisions: Unspecified
Subjects: no entry
Uncontrolled Keywords:
KeywordsLanguage
STELLAR MASS-SPECTRUM; PROBABILITY-DISTRIBUTION FUNCTIONS; COMPLEX ORGANIC-MOLECULES; STAR-FORMATION RATE; H-II REGIONS; GRAVITATIONAL COLLAPSE; INTERSTELLAR CLOUDS; RADIATIVE-TRANSFER; METHANOL MASERS; DUST CONTINUUMMultiple languages
Astronomy & AstrophysicsMultiple languages
URI: http://kups.ub.uni-koeln.de/id/eprint/69167

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