Modeling of the High-velocity Jet Powered by the Massive Star MWC 349A

MWC 349A is a massive star with a well-known circumstellar disk rotating following a Keplerian law, and an ionized wind launched from the disk surface. Recent observations with the Atacama Large Millimeter/submillimeter Array (ALMA) carried out toward this system, however, have revealed an additiona...

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Bibliographic Details
Published in:The Astrophysical journal 2023-10, Vol.955 (2), p.119
Main Authors: Martínez-Henares, Antonio, Jiménez-Serra, Izaskun, Martín-Pintado, Jesús, Huélamo, Nuria, Prasad, Sirina, Zhang, Qizhou, Moran, James, Cao, Yue, Báez-Rubio, Alejandro
Format: Article
Language:English
Subjects:
Accretion disks
Astrophysics
Circumstellar masers
Continuum radiation
Deceleration
Emissions
H II regions
Kinematics
Legal issues
Masers
Massive stars
Modelling
Radiative transfer
Radio telescopes
Rotating disks
Spatial distribution
Stars & galaxies
Stellar accretion disks
Stellar evolution
Stellar jets
Stellar winds
Velocity
Wind
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Summary:MWC 349A is a massive star with a well-known circumstellar disk rotating following a Keplerian law, and an ionized wind launched from the disk surface. Recent observations with the Atacama Large Millimeter/submillimeter Array (ALMA) carried out toward this system, however, have revealed an additional high-velocity component in the strong, maser emission of hydrogen radio recombination lines (RRLs), suggesting the presence of a high-velocity ionized jet. In this work, we present 3D non-LTE radiative transfer modeling of the emission of the H30 α and H26 α maser lines, and of their associated radio continuum emission, toward MWC 349A. By using the MORELI code, we reproduce the spatial distribution and kinematics of the high-velocity emission of the H30 α and H26 α maser lines with a high-velocity ionized jet expanding at a velocity of ∼250 km s −1 , surrounded by MWC 349A’s wide-angle ionized wind. The bipolar jet, which is launched from MWC 349A’s disk, is poorly collimated and slightly misaligned with respect to the disk rotation axis. Thanks to the unprecedented sensitivity and spatial accuracy provided by ALMA, we also find that the already known, wide-angle ionized wind decelerates as it expands radially from the ionized disk. We briefly discuss the implications of our findings for understanding the formation and evolution of massive stars. Our results show the huge potential of RRL masers as powerful probes of the innermost ionized regions around massive stars and of their high-velocity jets.
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/acebcd