Herschel/pacs survey of protoplanetary disks in Taurus/auriga - Observations of [OI] and [CII], and far-infrared continuum
Author
Howard, Christian D.; Vacca, William D.; Augereau, Jean Charles; Dent, William R F; Eiroa, Carlos; Kamp, Inga; Meeus, Gwendolyn; Pinte, Christophe; Podio, Linda; Rivière-Marichalar, Pablo; Roberge, Aki; Thi, Wingfai; Williams, Jonathan P.; Sandell, Göran; Duchêne, Gaspard; Mathews, Geoffrey; Barrado, David; Grady, Carol; Ménard, François C.; Vicente, SílviaEntity
UAM. Departamento de Física TeóricaPublisher
The American Astronomical SocietyDate
2013-09-20Citation
10.1088/0004-637X/776/1/21
The Astrophysical Journal 776.1 (2013): 21
ISSN
0004-637X (print); 1538-4357 (online)DOI
10.1088/0004-637X/776/1/21Funded by
F. Ménard acknowledges financial support from the Milenium Nucleus P10-022-F, funded by the Chilean Government, and by the EU FP7-2011 programme, under Grant Agreement 284405Project
info:eu-repo/grantAgreement/EC/FP7/284405Editor's Version
http://dx.doi.org/10.1088/0004-637X/776/1/21Subjects
Circumstellar matter; Planetary systems; Protoplanetary disks; Stars: pre-main sequence; FísicaNote
The Astrophysical Journal 776.1 (2013): 21 reproduced by permission of the AASRights
© 2013. The American Astronomical SocietyAbstract
The Herschel Space Observatory was used to observe ∼120 pre-main-sequence stars in Taurus as part of the GASPS Open Time Key project. Photodetector Array Camera and Spectrometer was used to measure the continuum as well as several gas tracers such as [O I] 63 μm, [O I] 145 μm, [C II] 158 μm, OH, H2O, and CO. The strongest line seen is [O I] at 63 μm. We find a clear correlation between the strength of the [O I] 63 μm line and the 63 μm continuum for disk sources. In outflow sources, the line emission can be up to 20 times stronger than in disk sources, suggesting that the line emission is dominated by the outflow. The tight correlation seen for disk sources suggests that the emission arises from the inner disk (<50 AU) and lower surface layers of the disk where the gas and dust are coupled. The [O I] 63 μm is fainter in transitional stars than in normal Class II disks. Simple spectral energy distribution models indicate that the dust responsible for the continuum emission is colder in these disks, leading to weaker line emission. [C II] 158 μm emission is only detected in strong outflow sources. The observed line ratios of [O I] 63 μm to [O I] 145 μm are in the regime where we are insensitive to the gas-to-dust ratio, neither can we discriminate between shock or photodissociation region emission. We detect no Class III object in [O I] 63 μm and only three in continuum, at least one of which is a candidate debris disk
Files in this item
Google Scholar:Howard, Christian D.
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Vacca, William D.
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Augereau, Jean Charles
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Dent, William R F
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Eiroa, Carlos
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Kamp, Inga
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Meeus, Gwendolyn
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Pinte, Christophe
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Podio, Linda
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Rivière-Marichalar, Pablo
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Roberge, Aki
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Thi, Wingfai
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Williams, Jonathan P.
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Sandell, Göran
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Duchêne, Gaspard
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Mathews, Geoffrey
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Barrado, David
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Grady, Carol
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Ménard, François C.
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Vicente, Sílvia
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