Correlations of Methyl Formate (CH3OCHO), Dimethyl Ether (CH3OCH3) and   Ketene (H2CCO) in High-mass Star-forming Regions

Chuanshou Li (1); Sheng-Li Qin (1); Tie Liu (2); Sheng-Yuan Liu (3),; Mengyao Tang (4); Hong-Li Liu (1); Li Chen (1); Xiaohu Li (5); Fengwei Xu (6; and 7); Tianwei Zhang (8; 9); Meizhu Liu (1); Hongqiong Shi (1); Yuefang; Wu (7) ((1) School of Physics; Astronomy; Yunnan University; People's; Republic of China; (2) Shanghai Astronomical Observatory; Chinese Academy of; Sciences; People's Republic of China; (3) Academia Sinica Institute of; Astronomy; Astrophysics; Taiwan; (4) Institute of Astrophysics; School of; Physics; Electronic Science; Chuxiong Normal University; People's Republic; of China; (5) Xinjiang Astronomical Observatory; Chinese Academy of Sciences,; China; (6) Kavli Institute for Astronomy; Astrophysics; Peking University,; People's Republic of China; (7) Department of Astronomy; School of Physics,; Peking University; People's Republic of China; (8) I. Physikalisches; Institut; Universit\"at zu K\"oln; Germany; (9) Research Center for; Intelligent Computing Platforms; Zhejiang Laboratory; P .R.China)

arXiv:2409.13192·astro-ph.GA·September 23, 2024

Correlations of Methyl Formate (CH3OCHO), Dimethyl Ether (CH3OCH3) and Ketene (H2CCO) in High-mass Star-forming Regions

Chuanshou Li (1), Sheng-Li Qin (1), Tie Liu (2), Sheng-Yuan Liu (3),, Mengyao Tang (4), Hong-Li Liu (1), Li Chen (1), Xiaohu Li (5), Fengwei Xu (6, and 7), Tianwei Zhang (8, 9), Meizhu Liu (1), Hongqiong Shi (1), Yuefang, Wu (7) ((1) School of Physics, Astronomy

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TL;DR

This study uses high-resolution ALMA observations to analyze the spatial distribution, physical properties, and chemical correlations of methyl formate, dimethyl ether, and ketene in 11 high-mass star-forming regions, revealing their linked chemistry and dependence on core mass.

Contribution

First detailed high-resolution mapping of three complex molecules in high-mass star-forming regions, analyzing their spatial distribution, physical parameters, and chemical relationships.

Findings

01

Molecules are concentrated in intense continuum emission areas.

02

Abundances and temperatures correlate with core mass and outflows.

03

Strong chemical links among the three molecules are suggested.

Abstract

We present high-spatial-resolution (0.7 to 1.0 arcsec) submillimeter observations of continuum and molecular lines of CH3OCHO, CH3OCH3, and H2CCO toward 11 high-mass star-forming regions using the Atacama Large Millimetre/submillimetre Array (ALMA). A total of 19 separate cores from 9 high-mass star-forming regions are found to be line-rich, including high-, intermediate-, and low-mass line-rich cores. The three molecules are detected in these line-rich cores. We map the emission of CH3OCHO, CH3OCH3, and H2CCO in 9 high-mass star-forming regions. The spatial distribution of the three molecules is very similar and concentrated in the areas of intense continuum emission. We also calculate the rotation temperatures, column densities, and abundances of CH3OCHO, CH3OCH3, and H2CCO under the local thermodynamic equilibrium (LTE) assumption. The abundances relative to H2 and CH3OH, and line…

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