An Automated Chemical Exploration of NGC 6334I at 340 au Resolution

Much of the information gleaned from observations of star-forming regions comes from the analysis of their molecular emission spectra, particularly in the radio regime. The time-consuming nature of fitting synthetic spectra to observations interactively for such line-rich sources, however, often res...

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Bibliographic Details
Published in:The Astrophysical journal 2024-04, Vol.965 (1), p.14
Main Authors: El-Abd, Samer J., Brogan, Crystal L., Hunter, Todd R., Lee, Kin Long Kelvin, Loomis, Ryan A., McGuire, Brett A.
Format: Article
Language:English
Subjects:
Astrochemistry
Automation
Complex organic molecules
Emission analysis
Emission spectra
Interferometric observation
Interstellar medium
Massive stars
Parameters
Physical properties
Pixels
Radio telescopes
Spectra
Star & galaxy formation
Star formation
Stellar spectra
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Summary:Much of the information gleaned from observations of star-forming regions comes from the analysis of their molecular emission spectra, particularly in the radio regime. The time-consuming nature of fitting synthetic spectra to observations interactively for such line-rich sources, however, often results in such analysis being limited to data extracted from a single-dish observation or a handful of pixels from an interferometric observation. Yet, star-forming regions display a wide variety of physical conditions that are difficult, if not impossible, to accurately characterize with such a limited number of spectra. We have developed an automated fitting routine that visits every pixel in the field of view of an Atacama Large Millimeter/submillimeter Array (ALMA) data cube and determines the best-fit physical parameters, including excitation temperature and column densities, for a given list of molecules. In this proof-of-concept work, we provide an overview of the fitting routine and apply it to 0.″26, 1.1 km s −1 resolution ALMA observations of two sites of massive star formation in NGC 6334I. Parameters were found for 21 distinct molecules by generating synthetic spectra across 7.48 GHz of spectral bandwidth between 280 and 351 GHz. Spatial images of the derived parameters for each of the >8000 pixels are presented with special attention paid to the C 2 H 4 O 2 isomers and their relative variations. We highlight the greater scientific utility of the column density and velocity images of individual molecules compared to traditional moment maps of single transitions.
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/ad283f