The Astrophysical Journal (Jan 2025)

New Cold Subdwarf Discoveries from Backyard Worlds and a Metallicity Classification System for T Subdwarfs

  • Adam J. Burgasser,
  • Adam C. Schneider,
  • Aaron M. Meisner,
  • Dan Caselden,
  • Chih-Chun Hsu,
  • Roman Gerasimov,
  • Christian Aganze,
  • Emma Softich,
  • Preethi Karpoor,
  • Christopher A. Theissen,
  • Hunter Brooks,
  • Thomas P. Bickle,
  • Jonathan Gagné,
  • Ètienne Artigau,
  • Michaël Marsset,
  • Austin Rothermich,
  • Jacqueline K. Faherty,
  • J. Davy Kirkpatrick,
  • Marc J. Kuchner,
  • Nikolaj Stevnbak Andersen,
  • Paul Beaulieu,
  • Guillaume Colin,
  • Jean Marc Gantier,
  • Leopold Gramaize,
  • Les Hamlet,
  • Ken Hinckley,
  • Martin Kabatnik,
  • Frank Kiwy,
  • David W. Martin,
  • Diego H. Massat,
  • William Pendrill,
  • Arttu Sainio,
  • Jörg Schümann,
  • Melina Thévenot,
  • Jim Walla,
  • Zbigniew Wędracki,
  • The Backyard Worlds: Planet 9 Collaboration

DOI
https://doi.org/10.3847/1538-4357/adb39f
Journal volume & issue
Vol. 982, no. 2
p. 79

Abstract

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We report the results of a spectroscopic survey of candidate T subdwarfs identified by the Backyard Worlds: Planet 9 program. Near-infrared spectra of 31 sources with red J − W2 colors and large J -band reduced proper motions show varying signatures of subsolar metallicity, including strong collision-induced H _2 absorption, obscured methane and water features, and weak K i absorption. These metallicity signatures are supported by spectral model fits and 3D velocities, indicating thick disk and halo population membership for several sources. We identify three new metal-poor T subdwarfs ([M/H] ≲ –0.5), CWISE J062316.19+071505.6, WISEA J152443.14−262001.8, and CWISE J211250.11-052925.2; and 19 new “mild” subdwarfs with modest metal deficiency ([M/H] ≲ −0.25). We also identify three metal-rich brown dwarfs with thick disk kinematics. We provide kinematic evidence that the extreme L subdwarf 2MASS J053253.46+824646.5 and the mild T subdwarf CWISE J113010.07+313944.7 may be part of the Thamnos population, while the T subdwarf CWISE J155349.96+693355.2 may be part of the Helmi stream. We define a metallicity classification system for T dwarfs that adds mild subdwarfs (d/sdT), subdwarfs (sdT), and extreme subdwarfs (esdT) to the existing dwarf sequence. We also define a metallicity spectral index that correlates with metallicities inferred from spectral model fits and iron abundances from stellar primaries of benchmark T dwarf companions. This expansion of the T dwarf classification system supports investigations of ancient, metal-poor brown dwarfs now being uncovered in deep imaging and spectroscopic surveys.

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