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Using binary statistics in Taurus-Auriga to distinguish between brown dwarf formation processes
Author
Marks, M.Martín, E. L.
Béjar, V. J. S.
Lodieu, N.
Kroupa, P.
Manjavacas, E.
Thies, I.
Rebolo López, R.
Velasco, S.
Affiliation
Univ Arizona, Steward ObservIssue Date
2017-08-31
Metadata
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EDP SCIENCES S ACitation
Using binary statistics in Taurus-Auriga to distinguish between brown dwarf formation processes 2017, 605:A11 Astronomy & AstrophysicsJournal
Astronomy & AstrophysicsRights
© ESO, 2017.Collection Information
This item from the UA Faculty Publications collection is made available by the University of Arizona with support from the University of Arizona Libraries. If you have questions, please contact us at repository@u.library.arizona.edu.Abstract
Context. One of the key questions of the star formation problem is whether brown dwarfs (BDs) form in the manner of stars directly from the gravitational collapse of a molecular cloud core (star-like) or whether BDs and some very low-mass stars (VLMSs) constitute a separate population that forms alongside stars comparable to the population of planets, for example through circumstellar disk (peripheral) fragmentation. Aims. For young stars in Taurus-Auriga the binary fraction has been shown to be large with little dependence on primary mass above approximate to 0.2 M-circle dot, while for BDs the binary fraction is < 10%. Here we investigate a case in which BDs in Taurus formed dominantly, but not exclusively, through peripheral fragmentation, which naturally results in small binary fractions. The decline of the binary frequency in the transition region between star-like formation and peripheral formation is modelled. Methods. We employed a dynamical population synthesis model in which stellar binary formation is universal with a large binary fraction close to unity. Peripheral objects form separately in circumstellar disks with a distinctive initial mass function (IMF), their own orbital parameter distributions for binaries, and small binary fractions, according to observations and expectations from smoothed particle hydrodynamics (SPH) and grid-based computations. A small amount of dynamical processing of the stellar component was accounted for as appropriate for the low-density Taurus-Auriga embedded clusters. Results. The binary fraction declines strongly in the transition region between star-like and peripheral formation, exhibiting characteristic features. The location of these features and the steepness of this trend depend on the mass limits for star-like and peripheral formation. Such a trend might be unique to low density regions, such as Taurus, which host binary populations that are largely unprocessed dynamically in which the binary fraction is large for stars down to M-dwarfs and small for BDs. Conclusions. The existence of a strong decline in the binary fraction - primary mass diagram will become verifiable in future surveys on BD and VLMS binarity in the Taurus-Auriga star-forming region. The binary fraction -primary mass diagram is a diagnostic of the (non-)continuity of star formation along the mass scale, the separateness of the stellar and BD populations, and the dominant formation channel for BDs and BD binaries in regions of low stellar density hosting dynamically unprocessed populations.Note
Open access journal.ISSN
0004-63611432-0746
Version
Final published versionSponsors
Spanish Ministry of Economy and Competitiveness (MINECO) [AYA2015-69350-C3-1-P, AYA2015-69350-C3-2-P]Additional Links
http://www.aanda.org/10.1051/0004-6361/201629457ae974a485f413a2113503eed53cd6c53
10.1051/0004-6361/201629457