Discovery of a Very Young Field L Dwarf, 2MASS J01415823-4633574

While following up L dwarf candidates selected photometrically from the Two Micron All Sky Survey, we uncovered an unusual object designated 2MASS J01415823-4633574. Its optical spectrum exhibits very strong bands of vanadium oxide but abnormally weak absorptions by titanium oxide, potassium, and sodium. Morphologically, such spectroscopic characteristics fall intermediate between old field early-L dwarfs [log(g) ≈ 5] and very late M giants [log(g) ≈ 0], leading us to favor low gravity as the explanation for the unique spectral signatures of this L dwarf. Such a low gravity can be explained only if this L dwarf is much lower in mass than a typical old field L dwarf of similar temperature and is still contracting to its final radius. These conditions imply a very young age. Further evidence of youth is found in the near-infrared spectrum, including a triangular-shaped H-band continuum, reminiscent of young brown dwarf candidates discovered in the Orion Nebula Cluster. Using the above information along with comparisons to brown dwarf atmospheric and interior models, our current best estimate is that this L dwarf has an age of 1-50 Myr and a mass of 6-25MJ. Although the lack of a lithium detection (pseudo-equivalent width <1 A) might appear to contradict other evidence of youth, we suggest that lithium becomes weaker at lower gravity like all other alkali lines and thus needs to be carefully considered before being used as a diagnostic of age or mass for objects in this regime. The location of 2MASS 0141-4633 on the sky coupled with a distance estimate of ~35 pc and the above age estimate suggests that this object may be a brown dwarf member of either the 30 Myr old Tucana/Horologium association or the ~12 Myr old β Pic moving group. Distance as determined through trigonometric parallax (underway) and a measure of the total space motion are needed to test this hypothesis.

[1]  F. Allard,et al.  Evolutionary models for low-mass stars and brown dwarfs: uncertainties and limits at very young ages , 2002 .

[2]  Adam J. Burgasser,et al.  The 2MASS Wide-Field T Dwarf Search. III. Seven New T Dwarfs and Other Cool Dwarf Discoveries , 2004, astro-ph/0402325.

[3]  John T. Rayner,et al.  An Infrared Spectroscopic Sequence of M, L, and T Dwarfs , 2004, astro-ph/0412313.

[4]  John E. Gizis M-subdwarfs: spectroscopic classification and the metallicity scale , 1997 .

[5]  Peter H. Hauschildt,et al.  TiO and H2O Absorption Lines in Cool Stellar Atmospheres , 2000, astro-ph/0008465.

[6]  B. Zuckerman,et al.  A low-temperature companion to a white dwarf star , 1988, Nature.

[7]  T. Guillot,et al.  A Nongray Theory of Extrasolar Giant Planets and Brown Dwarfs , 1997, astro-ph/9705201.

[8]  John T. Rayner,et al.  SpeX: A Medium‐Resolution 0.8–5.5 Micron Spectrograph and Imager for the NASA Infrared Telescope Facility , 2003 .

[9]  Ben Zuckerman,et al.  Young Stars Near the Sun , 2004 .

[10]  D. A. Golimowski,et al.  L' AND M' Photometry Of Ultracool Dwarfs , 2004 .

[11]  David G. Monet,et al.  Dwarfs Cooler than “M”: The Definition of Spectral Type “L” Using Discoveries from the 2-Micron All-Sky Survey (2MASS) , 1999 .

[12]  David R. Alexander,et al.  THE LIMITING EFFECTS OF DUST IN BROWN DWARF MODEL ATMOSPHERES , 2001 .

[13]  I. McLean,et al.  Identifying Young Brown Dwarfs Using Gravity-Sensitive Spectral Features , 2003, astro-ph/0309634.

[14]  B. Krauskopf,et al.  Proc of SPIE , 2003 .

[15]  I. Reid,et al.  The First Substellar Subdwarf? Discovery of a Metal-poor L Dwarf with Halo Kinematics , 2003, astro-ph/0304174.

[16]  John T. Rayner,et al.  Spextool: A Spectral Extraction Package for SpeX, a 0.8–5.5 Micron Cross‐Dispersed Spectrograph , 2004 .

[17]  J. Davy Kirkpatrick,et al.  New spectral types L and T , 2005 .

[18]  Brown Dwarf Companions to G-Type Stars. I. Gliese 417B and Gliese 584C , 2001, astro-ph/0103218.

[19]  Harland W. Epps,et al.  THE KECK LOW-RESOLUTION IMAGING SPECTROMETER , 1995 .

[20]  David G. Monet,et al.  67 Additional L Dwarfs Discovered by the Two Micron All Sky Survey , 2000, astro-ph/0003317.

[21]  Thierry Montmerle,et al.  From darkness to light : origin and evolution of young stellar clusters : proceedings of a meeting held in Cargèse, Corsica, France, 3-8 April 2000 , 2001 .

[22]  H. M. Dyck,et al.  Angular Size Measurements of 18 Mira Variable Stars at 2.2 ( , 1996 .

[23]  K. Lodders Titanium and Vanadium Chemistry in Low-Mass Dwarf Stars , 2002 .

[24]  Ian S. McLean,et al.  Performance and results with the NIRSPEC echelle spectrograph on the Keck II telescope , 2000, Astronomical Telescopes and Instrumentation.

[25]  Robert F. Garrison,et al.  The MK Process and Stellar Classification , 1984 .

[26]  George H. Rieke,et al.  Gravity Indicators in the Near-Infrared Spectra of Brown Dwarfs , 2003, astro-ph/0305147.

[27]  Adam J. Burgasser,et al.  The NIRSPEC Brown Dwarf Spectroscopic Survey. I. Low-Resolution Near-Infrared Spectra , 2003, astro-ph/0309257.

[28]  H Germany,et al.  A Method of Correcting Near‐Infrared Spectra for Telluric Absorption , 2002, astro-ph/0211255.

[29]  M. Skrutskie,et al.  The Two Micron All Sky Survey (2MASS) , 2006 .

[30]  I. Reid,et al.  2MASS J05185995–2828372: Discovery of an Unresolved L/T Binary , 2004, astro-ph/0402172.

[31]  F. Allard,et al.  Evolutionary Models for Very Low-Mass Stars and Brown Dwarfs with Dusty Atmospheres , 2000 .

[32]  M. Irwin,et al.  Ultra-Cool M Dwarfs Discovered by QSO Surveys.I: The APM Objects , 1997 .

[33]  F. Allard,et al.  Infrared Spectroscopy of Substellar Objects in Orion , 2001, astro-ph/0105154.

[34]  J. Kirkpatrick,et al.  Keck Spectra of Pleiades Brown Dwarf Candidates and a Precise Determination of the Lithium Depletion Edge in the Pleiades , 1998, astro-ph/9804005.

[35]  James E. Larkin,et al.  Design and development of NIRSPEC: a near-infrared echelle spectrograph for the Keck II telescope , 1998, Astronomical Telescopes and Instrumentation.