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arxiv: 1001.4393 · v1 · pith:RBOSLJL6new · submitted 2010-01-25 · 🌌 astro-ph.SR · astro-ph.GA

The discovery of a very cool binary system

classification 🌌 astro-ph.SR astro-ph.GA
keywords systemdwarfestimateobjectpeculiarityseenukidssbinary
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We report the discovery of a very cool d/sdL7+T7.5p common proper motion binary system, SDSS J1416+13AB, found by cross-matching the UKIDSS Large Area Survey Data Release 5 against the Sloan Digital Sky Survey Data Release 7. The d/sdL7 is blue in J-H and H-K and has other features suggestive of low-metallicity and/or high gravity. The T7.5p displays spectral peculiarity seen before in earlier type dwarfs discovered in UKIDSS LAS DR4, and referred to as CH4-J-early peculiarity. We suggest that CH4-J-early peculiarity arises from low-metallicity and/or high-gravity, and speculate as to its use for classifying T dwarfs. UKIDSS and follow-up UKIRT/WFCAM photometry shows the T dwarf to have the bluest near infrared colours yet seen for such an object with H-K = -1.31+/-0.17. Warm Spitzer IRAC photometry shows the T dwarf to have extremely red H-[4.5] = 4.86+/-0.04, which is the reddest yet seen for a substellar object. The lack of parallax measurement for the pair limits our ability to estimate parameters for the system. However, applying a conservative distance estimate of 5-15 pc suggests a projected separation in range 45-135 AU. By comparing H-K:H-[4.5] colours of the T dwarf to spectral models we estimate that Teff = 500 K and [M/H]~-0.30, with log g ~ 5.0. This suggests a mass of ~30 MJupiter for the T dwarf and an age of ~10 Gyr for the system. The primary would then be a 75MJupiter object with log g ~ 5.5 and a relatively dust-free Teff ~ 1500K atmosphere. Given the unusual properties of the system we caution that these estimates are uncertain. We eagerly await parallax measurements and high-resolution imaging which will constrain the parameters further.

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