Possible Explosive Dispersal Outflow in IRAS 16076-5134 Revealed with ALMA

We present 0.9 mm continuum and CO(3–2) line emission observations retrieved from the Atacama Large Millimeter/submillimeter Array archive toward the high-mass star formation region IRAS 16076-5134. We identify 14 dense cores with masses between 0.3 and 22 M ☉ . We find an ensemble of filament-like...

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Bibliographic Details
Published in:The Astrophysical journal 2022-10, Vol.937 (2), p.51
Main Authors: Guzmán Ccolque, Estrella, Fernández-López, Manuel, Zapata, Luis A., Baug, Tapas
Format: Article
Language:English
Subjects:
Astrophysics
Carbon monoxide
Dispersal
Dispersion
Emission
Energy budget
Filaments
Galaxies
Interferometers
Interstellar dynamics
Kinematics
Kinetic energy
Massive stars
Outflow
Radio telescopes
Star & galaxy formation
Star formation
Star formation rate
Submillimeter astronomy
Supernovae
Velocity gradient
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Summary:We present 0.9 mm continuum and CO(3–2) line emission observations retrieved from the Atacama Large Millimeter/submillimeter Array archive toward the high-mass star formation region IRAS 16076-5134. We identify 14 dense cores with masses between 0.3 and 22 M ☉ . We find an ensemble of filament-like CO(3–2) ejections from −62 to +83 km s −1 that appear to arise radially from a common central position, close to the dense core MM8. The ensemble of filaments has a quasi-isotropic distribution in the plane of the sky. The radial velocities of several filaments follow a linear velocity gradient, increasing from a common origin. Considering the whole ensemble of filaments, we estimate the total mass to be 138 and 216 M ☉ , from its CO emission, for 70 K and 140 K, respectively. Also, assuming a constant velocity expansion for the filaments (of 83 km s −1 ), we estimate the dynamical age of the outflowing material (3500 yr), its momentum (∼10 4 M ☉ km s −1 ), and its kinetic energy (∼10 48–49 erg). The morphology and kinematics presented by the filaments suggest the presence of a dispersal outflow with explosive characteristics in IRAS 16076-5134. In addition, we make a raw estimate of the lower limit of the frequency rate of the explosive dispersal outflows in the galaxy (one every 110 yr), considering a constant star formation rate and efficiency, with respect to the galactocentric radius of the galaxy. This may imply a comparable rate between dispersal outflows and supernovae (approximately one every 50 yr), which may be important for the energy budget of the and the link between dispersal outflows and high-mass star formation.
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/ac8c35