ADAPTIVE OPTICS IMAGING of VHS 1256-1257: A LOW MASS COMPANION to A BROWN DWARF BINARY SYSTEM

Jordan M. Stone; Andrew J. Skemer; Kaitlin M. Kratter; Trent J. Dupuy; Laird M. Close; Josh A. Eisner; Jonathan J. Fortney; Philip M. Hinz; Jared R. Males; Caroline V. Morley; Katie M. Morzinski; Kimberly Ward-Duong

doi:10.3847/2041-8205/818/1/L12

ADAPTIVE OPTICS IMAGING of VHS 1256-1257: A LOW MASS COMPANION to A BROWN DWARF BINARY SYSTEM

Jordan M. Stone, Andrew J. Skemer, Kaitlin M. Kratter, Trent J. Dupuy, Laird M. Close, Josh A. Eisner, Jonathan J. Fortney, Philip M. Hinz, Jared R. Males, Caroline V. Morley, Katie M. Morzinski, Kimberly Ward-Duong

Research output: Contribution to journal › Article › peer-review

46 Scopus citations

Abstract

Recently, Gauza et al. reported the discovery of a companion to the late M-dwarf, VHS J125601.92-125723.9 (VHS 1256-1257). The companions absolute photometry suggests its mass and atmosphere are similar to the HR 8799 planets. However, as a wide companion to a late-type star, it is more accessible to spectroscopic characterization. We discovered that the primary of this system is an equal-magnitude binary. For an age ∼300 Myr the A and B components each have a mass of 64.6 _-2.0^+0.8 M_Jup, and the b component has a mass of 11.2_-1.8^+9.7, making VHS 1256-1257 only the third brown dwarf triple system. There exists some tension between the spectrophotometric distance of 17.2±2.6 pc and the parallax distance of 12.7±1.0 pc. At 12.7 pc VHS 1256-1257 A and B would be the faintest known M7.5 objects, and are even faint outliers among M8 types. If the larger spectrophotmetric distance is more accurate than the parallax, then the mass of each component increases. In particular, the mass of the b component increases well above the deuterium burning limit to ∼35 M_Jup and the mass of each binary component increases to 73_-17⁺²⁰ M_Jup. At 17.1 pc, the UVW kinematics of the system are consistent with membership in the AB Dor moving group. The architecture of the system resembles a hierarchical stellar multiple suggesting it formed via an extension of the star formation process to low masses. Continued astrometric monitoring will resolve this distance uncertainty and will provide dynamical masses for a new benchmark system.

Original language	English (US)
Article number	L12
Journal	Astrophysical Journal Letters
Volume	818
Issue number	1
DOIs	https://doi.org/10.3847/2041-8205/818/1/L12
State	Published - Feb 10 2016

Keywords

binaries: close
brown dwarfs
stars: individual (VHS J125601.92125723.9)
stars: low-mass

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/2041-8205/818/1/L12

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Stone, J. M., Skemer, A. J., Kratter, K. M., Dupuy, T. J., Close, L. M., Eisner, J. A., Fortney, J. J., Hinz, P. M., Males, J. R., Morley, C. V., Morzinski, K. M., & Ward-Duong, K. (2016). ADAPTIVE OPTICS IMAGING of VHS 1256-1257: A LOW MASS COMPANION to A BROWN DWARF BINARY SYSTEM. Astrophysical Journal Letters, 818(1), Article L12. https://doi.org/10.3847/2041-8205/818/1/L12

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abstract = "Recently, Gauza et al. reported the discovery of a companion to the late M-dwarf, VHS J125601.92-125723.9 (VHS 1256-1257). The companions absolute photometry suggests its mass and atmosphere are similar to the HR 8799 planets. However, as a wide companion to a late-type star, it is more accessible to spectroscopic characterization. We discovered that the primary of this system is an equal-magnitude binary. For an age ∼300 Myr the A and B components each have a mass of 64.6 -2.0+0.8 MJup, and the b component has a mass of 11.2-1.8+9.7, making VHS 1256-1257 only the third brown dwarf triple system. There exists some tension between the spectrophotometric distance of 17.2±2.6 pc and the parallax distance of 12.7±1.0 pc. At 12.7 pc VHS 1256-1257 A and B would be the faintest known M7.5 objects, and are even faint outliers among M8 types. If the larger spectrophotmetric distance is more accurate than the parallax, then the mass of each component increases. In particular, the mass of the b component increases well above the deuterium burning limit to ∼35 MJup and the mass of each binary component increases to 73-17+20 MJup. At 17.1 pc, the UVW kinematics of the system are consistent with membership in the AB Dor moving group. The architecture of the system resembles a hierarchical stellar multiple suggesting it formed via an extension of the star formation process to low masses. Continued astrometric monitoring will resolve this distance uncertainty and will provide dynamical masses for a new benchmark system.",

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author = "Stone, {Jordan M.} and Skemer, {Andrew J.} and Kratter, {Kaitlin M.} and Dupuy, {Trent J.} and Close, {Laird M.} and Eisner, {Josh A.} and Fortney, {Jonathan J.} and Hinz, {Philip M.} and Males, {Jared R.} and Morley, {Caroline V.} and Morzinski, {Katie M.} and Kimberly Ward-Duong",

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T2 - A LOW MASS COMPANION to A BROWN DWARF BINARY SYSTEM

AU - Stone, Jordan M.

AU - Skemer, Andrew J.

AU - Kratter, Kaitlin M.

AU - Dupuy, Trent J.

AU - Close, Laird M.

AU - Eisner, Josh A.

AU - Fortney, Jonathan J.

AU - Hinz, Philip M.

AU - Males, Jared R.

AU - Morley, Caroline V.

AU - Morzinski, Katie M.

AU - Ward-Duong, Kimberly

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AB - Recently, Gauza et al. reported the discovery of a companion to the late M-dwarf, VHS J125601.92-125723.9 (VHS 1256-1257). The companions absolute photometry suggests its mass and atmosphere are similar to the HR 8799 planets. However, as a wide companion to a late-type star, it is more accessible to spectroscopic characterization. We discovered that the primary of this system is an equal-magnitude binary. For an age ∼300 Myr the A and B components each have a mass of 64.6 -2.0+0.8 MJup, and the b component has a mass of 11.2-1.8+9.7, making VHS 1256-1257 only the third brown dwarf triple system. There exists some tension between the spectrophotometric distance of 17.2±2.6 pc and the parallax distance of 12.7±1.0 pc. At 12.7 pc VHS 1256-1257 A and B would be the faintest known M7.5 objects, and are even faint outliers among M8 types. If the larger spectrophotmetric distance is more accurate than the parallax, then the mass of each component increases. In particular, the mass of the b component increases well above the deuterium burning limit to ∼35 MJup and the mass of each binary component increases to 73-17+20 MJup. At 17.1 pc, the UVW kinematics of the system are consistent with membership in the AB Dor moving group. The architecture of the system resembles a hierarchical stellar multiple suggesting it formed via an extension of the star formation process to low masses. Continued astrometric monitoring will resolve this distance uncertainty and will provide dynamical masses for a new benchmark system.

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ADAPTIVE OPTICS IMAGING of VHS 1256-1257: A LOW MASS COMPANION to A BROWN DWARF BINARY SYSTEM

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Keywords

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