Far-infrared Observations of the Very Low-Luminosity Embedded Source L1521F-IRS in the Taurus Star-Forming Region

We investigate the environment of the very low-luminosity object L1521F IRS using data from the Taurus Spitzer Legacy Survey. The MIPS 160 micron image shows both extended emission from the Taurus cloud as well as emission from multiple cold cores over a 1 X 2 deg region. Analysis shows that the clo...

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Bibliographic Details
Published in:arXiv.org 2009-03
Main Authors: Terebey, Susan, Fich, Michel, Noriega-Crespo, Alberto, Padgett, Deborah L, Fukagawa, Misato, Audard, Marc, Brooke, Tim, Carey, Sean, Evans, Neal J, Guedel, Manuel, Hines, Dean, Huard, Tracy, Knapp, Gillian R, McCabe, Caer-Eve, Menard, Francois, Monin, Jean-Louis, Rebull, Luisa
Format: Article
Language:English
Subjects:
Biological evolution
Clouds
Collapse
Dust
Emission
Extinction
Luminosity
Opacity
Star & galaxy formation
Star formation
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Summary:We investigate the environment of the very low-luminosity object L1521F IRS using data from the Taurus Spitzer Legacy Survey. The MIPS 160 micron image shows both extended emission from the Taurus cloud as well as emission from multiple cold cores over a 1 X 2 deg region. Analysis shows that the cloud dust temperature is 14.2 +- 0.4 K and the extinction ratio is A_160/A_K = 0.010 +- 0.001 up to A_V ~ 4 mag. We find kappa_160 = 0.23 +- 0.046 cm^2/g for the specific opacity of the gas-dust mixture. Therefore, for dust in the Taurus cloud we find the 160 um opacity is significantly higher than that measured for the diffuse ISM, but not too different from dense cores, even at modest extinction values. Furthermore, the 160 um image shows features that do not appear in the IRAS 100 um image. We identify six regions as cold cores, i.e. colder than 14.2 K, all of which have counterparts in extinction maps or C18O maps. We compare the effects of L1521F IRS on its natal core and find there is no evidence for dust heating at 160 or 100 um by the embedded source. From the infrared luminosity L_TIR = 0.024 Lo we find L_bol = 0.034 - 0.046L_o, thus confirming the source's low-luminosity. Comparison of L1521F IRS with theoretical simulations for the very early phases of star formation appears to rule out the first core collapse phase. The evolutionary state appears similar to or younger than the class 0 phase, and the estimated mass is likely to be substellar.
ISSN:2331-8422
DOI:10.48550/arxiv.0903.0636