New Insights into the Physical Conditions and Internal Structure of a Candidate Proto-globular Cluster

New Insights into the Physical Conditions and Internal Structure of a Candidate Proto-globular Cluster

We present ∼0 1 resolution (∼10 pc) Atacama Large Millimeter/submillimeter Array observations of a molecular cloud identified in the merging Antennae galaxies with the potential to form a globular cluster, nicknamed the "Firecracker." Since star formation has not yet begun at an appreciabl...

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Bibliographic Details
Published in:The Astrophysical journal Vol. 874; no. 2; pp. 120 - 133
Main Authors: Finn, Molly K., Johnson, Kelsey E., Brogan, Crystal L., Wilson, Christine D., Indebetouw, Remy, Harris, William E., Kamenetzky, Julia, Bemis, Ashley
Format: Journal Article
Language:English
Published: Philadelphia The American Astronomical Society 01-04-2019
IOP Publishing
Subjects:
Astrochemistry
Astrophysics
Clouds
External pressure
Filaments
Galactic clusters
Galaxies
galaxies: individual (NGC 4038/39)
galaxies: interactions
galaxies: ISM
galaxies: star clusters: general
galaxies: star formation
Globular clusters
High pressure
Milky Way
Molecular clouds
Morphology
Radio telescopes
Ram pressure
Star & galaxy formation
Star formation
submillimeter: galaxies
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Summary:We present ∼0 1 resolution (∼10 pc) Atacama Large Millimeter/submillimeter Array observations of a molecular cloud identified in the merging Antennae galaxies with the potential to form a globular cluster, nicknamed the "Firecracker." Since star formation has not yet begun at an appreciable level in this region, this cloud provides an example of what the birth environment of a globular cluster may have looked like before stars formed and disrupted the natal physical conditions. Using emission from 12CO(2-1), 12CO(3-2), 13CO(2-1), HCN(4-3), and HCO+(4-3) molecular lines, we are able to resolve the cloud's structure and find that it has a characteristic radius of 22 pc and a mass of (1-9) × 106 M . We also put constraints on the abundance ratios 12CO/13CO and H2/12CO. Based on the calculation of the mass, we determine that the commonly used CO-to-H2 conversion factor in this region varies spatially, with average values in the range cm−2 (K km s−1)−1. We demonstrate that if the cloud is bound (as is circumstantially suggested by its bright, compact morphology), an external pressure in excess of P/k > 108 K cm−3 is required. This would be consistent with theoretical expectations that globular cluster formation requires high-pressure environments, much higher than typical values found in the Milky Way. The position-velocity diagram of the cloud and its surrounding material suggests that this high pressure may be produced by ram pressure from the collision of filaments. The radial profile of the column density can be fit with both a Gaussian and a Bonnor-Ebert profile. If the Bonnor-Ebert fit is taken to be indicative of the cloud's physical structure, it would imply the cloud is gravitationally stable and pressure-confined. The relative line strengths of HCN and HCO+ in this region also suggest that these molecular lines can be used as a tracer for the evolutionary stage of a cluster.
Bibliography:AAS14274
Interstellar Matter and the Local Universe
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/ab0d1e