ATLASGAL-selected massive clumps in the inner Galaxy

Author:

Lee M.-Y.ORCID,Wyrowski F.,Menten K.,Tiwari M.,Güsten R.

Abstract

Context. While high-mass stars are key drivers of the evolution of galaxies, how they form and interact with the surrounding gas is still not fully understood. To shed light on this overarching issue, we have been performing a multitelescope campaign to observe carbon species in ~100 massive clumps (“Top100”) identified by the APEX Telescope Large Area Survey of the Galaxy (ATLASGAL). Our targets constitute a representative sample of high-mass star-forming regions with a wide range of masses (~20−104 M), bolometric luminosities (~60−106 L), and evolutionary stages (70 µm weak, infrared weak, infrared bright, and H II region sources). Aims. We aim to probe the physical conditions of [C I]-traced gas in the Top100 sample based on Atacama Pathfinder Experiment (APEX) [C I] 492 GHz observations. This is the first of a series of papers presenting results from our [C II] and [C I] campaign. Methods. To determine physical properties such as the temperature, density, and column density, we combined the obtained [C I] 492 GHz spectra with APEX observations of [C I] 809 GHz and 13CO(2−1), as well as with other multiwavelength data, and employed both local thermodynamic equilibrium (LTE) and non-LTE methods. Results. Our 98 sources are clearly detected in [C I] 492 GHz emission, and the observed integrated intensities and line widths tend to increase toward evolved stages of star formation. In addition to these “main” components that are associated with the Top100 sample, 41 emission and two absorption features are identified by their velocities toward 28 and two lines of sight, respectively, as “secondary” components. The secondary components have systematically smaller integrated intensities and line widths than the main components. We found that [C I] 492 GHz and 13CO(2–1) are well correlated with the 13CO(2–1)-to-[C I] 492 GHz integrated intensity ratio varying from 0.2 to 5.3. In addition, we derived the H2-to-[C I] conversion factor, X(C I), by dividing 870 µm-based H2 column densities by the observed [C I] 492 GHz integrated intensities and found that X(C I) (in units of cm−2 (K km s−1)−1) ranges from 2.3 × 1020 to 1.3 × 1022 with a median of 1.7 × 1021. In contrast to the strong correlation with 13CO(2–1), [C I] 492GHz has a scattered relation with the 870 µm-traced molecular gas. Finally, we performed LTE and non-LTE analyses of the [C I] 492 GHz and 809 GHz data for a subset of the Top100 sample and inferred that [C I] emission likely originates from warm (kinetic temperature ≳60 K), optically thin (opacity <0.5), and highly pressurized (thermal pressure ~(2–5000) × 105 K cm−3) regions. Conclusions. Our [C I] 492 GHz survey demonstrates that [C I] 492 GHz is prevalent in the inner Galaxy and traces not only massive clumps, but also non-star-forming relatively diffuse gas. The strong correlation between [C I] 492 GHz and 13CO(2–1) indicates that they probe similar conditions, and the observed variations in the intensity ratio of the two transitions likely reflect local conditions of the interstellar medium. The scattered relation between [C I] 492 GHz and the 870 µm-based molecular gas, on the other hand, implies that [C I] 492 GHz and 13CO(2–1) probe warm molecular gas that surrounds denser and colder clumps traced by 870 µm emission.

Publisher

EDP Sciences

Subject

Space and Planetary Science,Astronomy and Astrophysics

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