Bibcode
DOI
Zapatero Osorio, M. R.; Lane, B. F.; Pavlenko, Ya.; Martín, E. L.; Britton, M.; Kulkarni, S. R.
Referencia bibliográfica
The Astrophysical Journal, Volume 615, Issue 2, pp. 958-971.
Fecha de publicación:
11
2004
Revista
Número de citas
104
Número de citas referidas
84
Descripción
We have obtained new images and high-resolution (R~22,400) near-infrared
(1.2400-1.2575 μm) spectra of each component of the brown dwarf
binary GJ 569 Bab using the adaptive optics facility of the Keck II
telescope and the NIRSPEC spectrometer. These data have allowed us to
improve the determination of the astrometric orbit and to measure radial
velocities of the components. We have used the astrometric and
spectroscopic measurements to derive the dynamical mass of each brown
dwarf and the systemic velocity of the pair by means of a
χ2 fitting technique. From various considerations, the
mass of each component is likely in the range 0.034-0.070
Msolar (GJ 569 Bb) and 0.055-0.087 Msolar (GJ 569
Ba). This implies that the mass ratio q of the binary is greater than
0.4, the most likely value being q=0.75-0.85. Adopting 0.072
Msolar as the most conservative location of the substellar
limit for solar metallicity, our analysis confirms GJ 569 Bb as the
first genuine brown dwarf known without any theoretical assumptions. We
have compared the dynamical masses of GJ 569 Ba and Bb, and their
effective temperatures and luminosities, to the predictions of
state-of-the-art theoretical evolutionary isochrones, finding that
models exhibit good performance in the regime of high substellar masses
if the binary is about a few hundred million years old. However, the
surface gravities of GJ 569 Ba (M8.5 V) and Bb (M9 V) derived from our
spectral analysis (the observed data have been compared to the latest
synthetic spectra) appear to be smaller than the values provided by the
evolutionary models.