Microlensing discovery of a population of very tight, very low mass binary brown dwarfs

Authors

J. Y. Choi, Chungbuk National University
C. Han, Chungbuk National University
A. Udalski, Uniwersytet Warszawski
T. Sumi, Osaka University
B. S. Gaudi, The Ohio State University
A. Gould, The Ohio State University
D. P. Bennett, University of Notre Dame
M. Dominik, University of St Andrews
J. P. Beaulieu, Institut d’Astrophysique de Paris
Y. Tsapras, Las Cumbres Observatory Global Telescope Network, Inc
V. Bozza, Istituto Nazionale di Fisica Nucleare, Sezione di Napoli
F. Abe, Nagoya University
I. A. Bond, Massey University Auckland
C. S. Botzler, The University of Auckland
P. Chote, Victoria University of Wellington
M. Freeman, The University of Auckland
A. Fukui, National Institutes of Natural Sciences - National Astronomical Observatory of Japan
K. Furusawa, Nagoya University
Y. Itow, Nagoya University
C. H. Ling, Massey University Auckland
K. Masuda, Nagoya University
Y. Matsubara, Nagoya University
N. Miyake, Nagoya University
Y. Muraki, Nagoya University
K. Ohnishi, National Institute of Technology, Nagano College
N. J. Rattenbury, The University of Auckland
To Saito, Tokyo Metropolitan College of Technology
D. J. Sullivan, Victoria University of Wellington
K. Suzuki, Nagoya University
W. L. Sweatman, Massey University Auckland
D. Suzuki, Osaka University
S. Takino, Nagoya University
P. J. Tristram, University of Canterbury Mount John Observatory

Document Type

Article

Publication Date

5-10-2013

Abstract

Although many models have been proposed, the physical mechanisms responsible for the formation of low-mass brown dwarfs (BDs) are poorly understood. The multiplicity properties and minimum mass of the BD mass function provide critical empirical diagnostics of these mechanisms. We present the discovery via gravitational microlensing of two very low mass, very tight binary systems. These binaries have directly and precisely measured total system masses of 0.025 M· and 0.034 M·, and projected separations of 0.31 AU and 0.19 AU, making them the lowest-mass and tightest field BD binaries known. The discovery of a population of such binaries indicates that BD binaries can robustly form at least down to masses of 0.02 M·. Future microlensing surveys will measure a mass-selected sample of BD binary systems, which can then be directly compared to similar samples of stellar binaries. © 2013. The American Astronomical Society. All rights reserved.

Publication Source (Journal or Book title)

Astrophysical Journal

Recommended Citation

Choi, J., Han, C., Udalski, A., Sumi, T., Gaudi, B., Gould, A., Bennett, D., Dominik, M., Beaulieu, J., Tsapras, Y., Bozza, V., Abe, F., Bond, I., Botzler, C., Chote, P., Freeman, M., Fukui, A., Furusawa, K., Itow, Y., Ling, C., Masuda, K., Matsubara, Y., Miyake, N., Muraki, Y., Ohnishi, K., Rattenbury, N., Saito, T., Sullivan, D., Suzuki, K., Sweatman, W., Suzuki, D., Takino, S., & Tristram, P. (2013). Microlensing discovery of a population of very tight, very low mass binary brown dwarfs. Astrophysical Journal, 768 (2) https://doi.org/10.1088/0004-637X/768/2/129