A study of three southern high-mass star-forming regions

TL;DR

This study investigates three southern high-mass star-forming regions using dust continuum and molecular line observations, revealing their hot core nature and chemical complexity, and establishing methods for surveying additional regions.

Contribution

It provides detailed physical and chemical characterization of three hot cores, demonstrating effective observational strategies for large-scale surveys of high-mass star formation.

Findings

All three sources are line-rich hot cores with complex organic molecules.

Emission arises from both extended envelopes and compact hot regions.

Sources show oxygen over nitrogen chemical abundance patterns.

Abstract

Based on color-selected IRAS point sources, we have started to conduct a survey of 47 high-mass star-forming regions in the southern hemisphere in 870um dust continuum and molecular line emission in several frequency ranges between 290 GHz and 806 GHz. This paper describes the pilot study of the three sources IRAS12326-6245, IRAS16060-5146, and IRAS16065-5158. To characterize the physical and chemical properties of southern massive star-forming regions, the three high-luminosity southern hemisphere hot cores were observed with APEX in five frequency setups aimed at groups of lines from the following molecules: CH3OH, H2CO, and CH3CN. Using the LTE approximation, temperatures, source sizes, and column densities were determined through modeling of synthetic spectra with the XCLASS program. Dust continuum observations were done with the Large APEX BOlometer CAmera (LABOCA) at 870um and the 3mm continuum was imaged with the ATCA. Based on the detection of high-excitation CH3CN lines and lines from complex organic species, the three sources are classified as line rich, hot core type sources. For all three, the modeling indicates that the line emission emerges from a combination of an extended, cooler envelope, and a hot compact component. All three sources show an overabundance of oxygen-bearing species compared to nitrogen-bearing species. Based on the results obtained in the three sources, which served as templates for the survey, the most promising (and feasible) frequency setups for the remaining 44 sources were decided upon.