CO (J = 4-3) and [C I] Observations of the Carina Molecular Cloud Complex

We present large area, fully-sampled maps of the Carina molecular cloud complex in the CO (J = 4 - 3) and neutral carbon [CI] 3P1 - 3P0 transitions. These data were obtained using the 1.7 meter diameter Antarctic Submillimeter Telescope and Remote Observatory (AST/RO). The maps cover an area of appr...

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Bibliographic Details
Published in:The Astrophysical Journal
Main Authors: Zhang, X, Lee, Y, Bolatto, A D, Stark, A A
Language:English
Published: 2001
Subjects:
Astrophysics and Astronomy
Antarctic
Antarc*
Online Access:https://doi.org/10.1086/320628
http://cds.cern.ch/record/483678
id ftcern:oai:cds.cern.ch:483678
record_format openpolar
spelling ftcern:oai:cds.cern.ch:483678 2023-05-15T13:51:20+02:00 CO (J = 4-3) and [C I] Observations of the Carina Molecular Cloud Complex Zhang, X Lee, Y Bolatto, A D Stark, A A 2001 https://doi.org/10.1086/320628 http://cds.cern.ch/record/483678 eng eng doi:10.1086/320628 http://cds.cern.ch/record/483678 astro-ph/0101272 oai:cds.cern.ch:483678 Astrophysics and Astronomy 2001 ftcern https://doi.org/10.1086/320628 2018-07-28T04:52:23Z We present large area, fully-sampled maps of the Carina molecular cloud complex in the CO (J = 4 - 3) and neutral carbon [CI] 3P1 - 3P0 transitions. These data were obtained using the 1.7 meter diameter Antarctic Submillimeter Telescope and Remote Observatory (AST/RO). The maps cover an area of approximately 3 square degrees with a uniform 1' spatial sampling. Analysis of these data, in conjunction with CO (J = 1 - 0) data from the Columbia CO survey and the IRAS HIRES continuum maps for the same region, suggests that the spiral density wave shock associated with the Carina spiral arm may be playing an important role in the formation and dissociation of the cloud complex, as well as in maintaining the internal energy balance of the clouds in this region. Massive stars form at the densest regions of the molecular cloud complex. The winds and outflows associated with these stars have a disrupting effect on the complex and inject mechanical energy into the parent clouds, while the UV radiation from the young stars also heat the parent clouds. The present set of data suggests, however, that massive stars alone may not account for the energetics of the clouds in the Carina region. The details of the data and the correlation among the various data sets hint at the possible role that the spiral density wave shock plays in feeding interstellar turbulence and in heating molecular clouds. Other/Unknown Material Antarc* Antarctic CERN Document Server (CDS) Antarctic The Astrophysical Journal 553 1 274 287
institution Open Polar
collection CERN Document Server (CDS)
op_collection_id ftcern
language English
topic Astrophysics and Astronomy
spellingShingle Astrophysics and Astronomy
Zhang, X
Lee, Y
Bolatto, A D
Stark, A A
CO (J = 4-3) and [C I] Observations of the Carina Molecular Cloud Complex
topic_facet Astrophysics and Astronomy
description We present large area, fully-sampled maps of the Carina molecular cloud complex in the CO (J = 4 - 3) and neutral carbon [CI] 3P1 - 3P0 transitions. These data were obtained using the 1.7 meter diameter Antarctic Submillimeter Telescope and Remote Observatory (AST/RO). The maps cover an area of approximately 3 square degrees with a uniform 1' spatial sampling. Analysis of these data, in conjunction with CO (J = 1 - 0) data from the Columbia CO survey and the IRAS HIRES continuum maps for the same region, suggests that the spiral density wave shock associated with the Carina spiral arm may be playing an important role in the formation and dissociation of the cloud complex, as well as in maintaining the internal energy balance of the clouds in this region. Massive stars form at the densest regions of the molecular cloud complex. The winds and outflows associated with these stars have a disrupting effect on the complex and inject mechanical energy into the parent clouds, while the UV radiation from the young stars also heat the parent clouds. The present set of data suggests, however, that massive stars alone may not account for the energetics of the clouds in the Carina region. The details of the data and the correlation among the various data sets hint at the possible role that the spiral density wave shock plays in feeding interstellar turbulence and in heating molecular clouds.
author Zhang, X
Lee, Y
Bolatto, A D
Stark, A A
author_facet Zhang, X
Lee, Y
Bolatto, A D
Stark, A A
author_sort Zhang, X
title CO (J = 4-3) and [C I] Observations of the Carina Molecular Cloud Complex
title_short CO (J = 4-3) and [C I] Observations of the Carina Molecular Cloud Complex
title_full CO (J = 4-3) and [C I] Observations of the Carina Molecular Cloud Complex
title_fullStr CO (J = 4-3) and [C I] Observations of the Carina Molecular Cloud Complex
title_full_unstemmed CO (J = 4-3) and [C I] Observations of the Carina Molecular Cloud Complex
title_sort co (j = 4-3) and [c i] observations of the carina molecular cloud complex
publishDate 2001
url https://doi.org/10.1086/320628
http://cds.cern.ch/record/483678
geographic Antarctic
geographic_facet Antarctic
genre Antarc*
Antarctic
genre_facet Antarc*
Antarctic
op_relation doi:10.1086/320628
http://cds.cern.ch/record/483678
astro-ph/0101272
oai:cds.cern.ch:483678
op_doi https://doi.org/10.1086/320628
container_title The Astrophysical Journal
container_volume 553
container_issue 1
container_start_page 274
op_container_end_page 287
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