VLA and BIMA observations toward the exciting source of the massive HH 80-81 outflow
Author
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Gómez, Y.
Author
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Rodríguez, L. F.
es_CL
Author
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Girart, J.M.
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Author
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Garay Brignardello, Guido
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Author
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Martí, J.
es_CL
Admission date
dc.date.accessioned
2014-01-07T19:15:17Z
Available date
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2014-01-07T19:15:17Z
Publication date
dc.date.issued
2003-11-01
Cita de ítem
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The Astrophysical Journal, 597:414–423, 2003 November 1
en_US
Identifier
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1538-4357
Identifier
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https://repositorio.uchile.cl/handle/2250/126015
General note
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Artículo de publicación ISI
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Abstract
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We present high angular resolution Very Large Array (VLA) and Berkeley-Illinois-Maryland Association
(BIMA) observations of NH3, HCO+, HCN, and SO molecular emission and 1.4, 3.5, and 7 mm continuum
emission toward the exciting source of the HH 80–81 system. This object is one of the few massive protostars
known to be driving a collimated outflow. We report the first detection of SO 55–44 molecular emission
toward the exciting source ofHH 80–81, suggesting that this transition may be a good tracer of molecular gas
near massive protostars. We also detected toward this source dust continuum emission at 1.4 and 3.5 mm.
From the SO molecular emission and the dust emission we roughly estimated that the molecular mass associated
with the circumstellar surroundings of the exciting source of the thermal jet is in the range 1–3M .Weak
and broad (2, 2) ammonia emission was also found in the direction of the jet, suggesting the presence of small
amounts of molecular gas at high temperatures (>50 K). The VLA observations show the presence of three
ammonia components toward the HH 80–81 region. The brightest component peaks at 800 northeast of the
thermal jet and is associated with the H2O maser spots in the region. A second ammonia clump is located
about 2500 northeast of the jet and is associated with Class I methanol masers. The third ammonia component
is located 10 south of the thermal jet and may be a molecular core, yet without stellar formation. The BIMA
observations show that the strongest emission in the HCO+ and HCN lines originates close to the H2O maser
and covers the same spatial region and velocity range as the brightest ammonia component.
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Patrocinador
dc.description.sponsorship
Y. G. and L. F. R. acknowledge financial support from
DGAPA-UNAM and CONACyT, Me´xico. J. M. G. is
supported by MCyT grant AYA2002-00205. G. G.
acknowledges support from FONDECYT project 1010531