Bibcode
Pinfield, D. J.; Burningham, B.; Tamura, M.; Leggett, S. K.; Lodieu, N.; Lucas, P. W.; Mortlock, D. J.; Warren, S. J.; Homeier, D.; Ishii, M.; Deacon, N. R.; McMahon, R. G.; Hewett, P. C.; Osori, M. R. Zapatero; Martin, E. L.; Jones, H. R. A.; Venemans, B. P.; Day-Jones, A. C.; Dobbie, P. D.; Folkes, S. L.; Dye, S.; Allard, F.; Baraffe, I.; Barrado Y Navascués, D.; Casewell, S. L.; Chiu, K.; Chabrier, G.; Clarke, F.; Hodgkin, S. T.; Magazzù, A.; McCaughrean, M. J.; Nakajima, T.; Pavlenko, Y.; Tinney, C. G.
Bibliographical reference
Monthly Notices of the Royal Astronomical Society, Volume 390, Issue 1, pp. 304-322.
Advertised on:
10
2008
Citations
96
Refereed citations
82
Description
We present the discovery of 15 new T2.5-T7.5 dwarfs (with estimated
distances ~24-93pc), identified in the first three main data releases of
the United Kingdom Infrared Telescope (UKIRT) Infrared Deep Sky Survey.
This brings the total number of T dwarfs discovered in the Large Area
Survey (LAS) (to date) to 28. These discoveries are confirmed by
near-infrared spectroscopy, from which we derive spectral types on the
unified scheme of Burgasser et al. Seven of the new T dwarfs have
spectral types of T2.5-T4.5, five have spectral types of T5-T5.5, one is
a T6.5p and two are T7-7.5. We assess spectral morphology and colours to
identify T dwarfs in our sample that may have non-typical physical
properties (by comparison to solar neighbourhood populations), and find
that three of these new T dwarfs may have unusual metallicity, two may
have low surface gravity, and one may have high surface gravity. The
colours of the full sample of LAS T dwarfs show a possible trend to
bluer Y - J with decreasing effective temperature, and some interesting
colour changes in J - H and z - J (deserving further investigation)
beyond T8. The LAS T dwarf sample from the first and second main data
releases show good evidence for a good level of completion to J = 19. By
accounting for the main sources of incompleteness (selection, follow-up
and spatial) as well as the effects of unresolved binarity, Malmquist
and Eddington bias, we estimate that there are 17 +/- 4 >= T 4 dwarfs
in the J <= 19 volume of the LAS second data release. This value is
most consistent with theoretical predictions if the substellar mass
function exponent α (dN/dm ~ m-α) lies between
-1.0 and 0. This is consistent with the latest 2-Micron All Sky Survey
(2MASS)/Sloan Digital Sky Survey (SDSS) constraint (which is based on
lower number statistics) and is significantly lower than the α ~
1.0 suggested by L dwarf field populations, which is possibly a result
of the lower mass range probed by the T dwarf class.