TRAO Survey of nearby filamentary molecular clouds, the Universal Nursery of 
stars (TRAO FUNS) - I. Dynamics and chemistry of L1478 in the California 
molecular cloud

Chung, Eun Jung; Lee, Chang Won; Kim, Shinyoung; Kim, Gwanjeong; Caselli, Paola; Tafalla, Mario; Myers, Philip C.; Soam, Archana; Liu, Tie; Gopinathan, Maheswar; Kim, Miryang; Kim, Kyoung Hee; Kwon, Woojin; Kang, Hyunwoo; Lee, Changhoon

doi:10.3847/1538-4357/ab12d1

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TRAO Survey of nearby filamentary molecular clouds, the Universal Nursery of stars (TRAO FUNS) - I. Dynamics and chemistry of L1478 in the California molecular cloud

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Caselli, Paola
Center for Astrochemical Studies at MPE, MPI for Extraterrestrial Physics, Max Planck Society;

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Zitation

Chung, E. J., Lee, C. W., Kim, S., Kim, G., Caselli, P., Tafalla, M., et al. (2019). TRAO Survey of nearby filamentary molecular clouds, the Universal Nursery of stars (TRAO FUNS) - I. Dynamics and chemistry of L1478 in the California molecular cloud. The Astrophysical Journal, 877(2): 114. doi:10.3847/1538-4357/ab12d1.

Zitierlink: https://hdl.handle.net/21.11116/0000-0003-D891-5

Zusammenfassung

"TRAO FUNS" is a project to survey the Gould Belt's clouds in molecular lines. This paper presents its first results on the central region of the California molecular cloud, L1478. We performed on-the-fly mapping observations using the Taeduk Radio Astronomy Observatory 14 m single-dish telescope equipped with a 16 multibeam array covering a ~1.0 square degree area of this region using C¹⁸O(1-0) , mainly tracing low-density clouds, and a ~460 square arcminute area using N₂H⁺(1-0), mainly tracing dense cores. CS (2-1) and SO(3₂-2₁ were also used simultaneously to map a ~440 square arcminute area of this region. We identified 10 filaments by applying the dendrogram technique to the C¹⁸O data cube and 8 dense N₂H⁺ cores using FellWalker. Basic physical properties of filaments such as mass, length, width, velocity field, and velocity dispersion are derived. It is found that L1478 consists of several filaments with slightly different velocities. Particularly, the filaments that are supercritical are found to contain dense cores detected in N₂H⁺. A comparison of nonthermal velocity dispersions derived from using C¹⁸O and N₂H⁺ for the filaments and dense cores indicates that some of the dense cores share kinematics similar to those of the surrounding filaments, while several dense cores have different kinematics from those of their filaments. This suggests that the formation mechanism of dense cores and filaments can be different in individual filaments depending on their morphologies and environments.