VLTI/GRAVITY Observations and Characterization of the Brown Dwarf   Companion HD 72946 B

W. O. Balmer (1; 2); L. Pueyo (2); T. Stolker (3); H. Reggiani (4),; S. Lacour (5; 6); A.-L. Maire (7); P. Molli\`ere (8); M. Nowak (9); D.; Sing (1; 10); N. Pourr\'e (7); S. Blunt (11); J. J. Wang (12); E. Rickman; (13); Th. Henning (8); K. Ward-Duong (14); R. Abuter (6); A. Amorim (15 and; 16); R. Asensio-Torres (8); M. Benisty (7); J.-P. Berger (7); H. Beust (7),; A. Boccaletti (5); A. Bohn (3); M. Bonnefoy (7); H. Bonnet (6); G. Bourdarot; (17; 7); W. Brandner (8); F. Cantalloube (18); P. Caselli (17); B. Charnay; (5); G. Chauvin (7); A. Chavez (12); E. Choquet (18); V. Christiaens (19); Y.; Cl\'enet (5); V. Coud\'e du Foresto (5); A. Cridland (3); R. Dembet (5); A.; Drescher (17); G. Duvert (7); A. Eckart (20; 21); F. Eisenhauer (17); H.; Feuchtgruber (17); P. Garcia (16; 22); R. Garcia Lopez (23; 8); T.; Gardner (24); E. Gendron (5); R. Genzel (17); S. Gillessen (17); J. H. Girard; (2); X. Haubois (25); G. Hei{\ss}el (5); S. Hinkley (26); S. Hippler (8); M.; Horrobin (20); M. Houll\'e (18); Z. Hubert (7); L. Jocou (7); J. Kammerer; (2); M. Keppler (8); P. Kervella (5); L. Kreidberg (8); A.-M. Lagrange (7 and; 5); V. Lapeyr\`ere (5); J.-B. Le Bouquin (7); P. L\'ena (5); D. Lutz (17); F.; Mang (17); G.-D. Marleau (27; 28; 29; 8); A. M\'erand (6); J. D.; Monnier (24); C. Mordasini (29); D. Mouillet (7); E. Nasedkin (8); T. Ott; (17); G. P. P. L. Otten (30); C. Paladini (25); T. Paumard (5); K. Perraut; (7); G. Perrin (5); O. Pfuhl (6); J. Rameau (7); L. Rodet (31); Z.; Rustamkulov (10); J. Shangguan (17); T. Shimizu (17); C. Straubmeier (20); E.; Sturm (17); L. J. Tacconi (17); E.F. van Dishoeck (3; 17); A. Vigan (18),; F. Vincent (5); F. Widmann (17); E. Wieprecht (17); E. Wiezorrek (17); T.; Winterhalder (6); J. Woillez (6); S. Yazici (17); A. Young (17) ((1); Department of Physics; Astronomy; Johns Hopkins University; Baltimore; MD,; USA; (2) Space Telescope Science Institute; Baltimore; MD; USA; (3) Leiden; Observatory; Leiden University; The Netherlands; (4) The Observatories of the; Carnegie Institution for Science; Pasadena; C; USA; (5) LESIA; Observatoire; de Paris; PSL; CNRS; Sorbonne Universit\'e; Universit\'e de Paris; Meudon,; France; (6) European Southern Observatory; Garching; Germany; (7); Universit\'e Grenoble Alpes; CNRS; IPAG; Grenoble; France; (8) Max Planck; Institute for Astronomy; Heidelberg; Germany; (9) Institute of Astronomy,; University of Cambridge; Cambridge; United Kingdom; (10) Department of Earth; & Planetary Sciences; Johns Hopkins University; Baltimore; MD; USA; (11); Department of Astronomy; California Institute of Technology; Pasadena; CA,; USA; (12) Center for Interdisciplinary Exploration; Research in; Astrophysics (CIERA); Department of Physics; Astronomy; Northwestern; University; Evanston; IL; USA; (13) European Space Agency (ESA); ESA Office,; Space Telescope Science Institute; Baltimore; MD; USA; (14) Department of; Astronomy; Smith College; Northampton MA USA; (15) Universidade de Lisboa -; Faculdade de Ci\^encias; Campo Grande; Lisboa; Portugal; (16) CENTRA - Centro; de Astrof\' isica e Gravita\c{c}\~ao; IST; Universidade de Lisboa; Lisboa,; Portugal; (17) Max Planck Institute for extraterrestrial Physics; Garching,; Germany; (18) Aix Marseille Univ; CNRS; CNES; LAM; Marseille; France; (19); School of Physics; Astronomy; Monash University; Clayton; Melbourne,; Australia; (20) Institute of Physics; University of Cologne; Cologne,; Germany; (21) Max Planck Institute for Radio Astronomy; Bonn; Germany; (22); Universidade do Porto; Faculdade de Engenharia; Porto; Portugal; (23) School; of Physics; University College Dublin; Belfield; Dublin; Ireland; (24); Astronomy Department; University of Michigan; Ann Arbor; MI USA; (25); European Southern Observatory; Santiago; Chile; (26) University of Exeter,; Physics Building; Stocker Road; Exeter; United Kingdom; (27) Fakult"at f"ur; Physik; Universit"at Duisburg-Essen; Duisburg; Germany; (28) Instit"ut f"ur; Astronomie und Astrophysik; Universit"at T"ubingen; T\"ubingen; Germany; (29); Center for Space; Habitability; Universit"at Bern; Bern; Switzerland; (30); Academia Sinica; Institute of Astronomy; Astrophysics; Taipei; Taiwan,; (31) Center for Astrophysics; Planetary Science; Department of Astronomy,; Cornell University; Ithaca; NY 14853; USA)

arXiv:2309.04403·astro-ph.SR·October 13, 2023

VLTI/GRAVITY Observations and Characterization of the Brown Dwarf Companion HD 72946 B

W. O. Balmer (1, 2), L. Pueyo (2), T. Stolker (3), H. Reggiani (4),, S. Lacour (5, 6), A.-L. Maire (7), P. Molli\`ere (8), M. Nowak (9), D., Sing (1, 10), N. Pourr\'e (7), S. Blunt (11), J. J. Wang (12), E. Rickman, (13), Th. Henning (8), K. Ward-Duong (14), R. Abuter (6)

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TL;DR

This study uses high-precision VLTI/GRAVITY astrometry and spectral analysis to characterize the brown dwarf HD 72946 B, providing new dynamical mass constraints and insights into its atmospheric properties.

Contribution

It presents the first near-unprecedented astrometric measurements of a benchmark brown dwarf and combines dynamical mass constraints with atmospheric modeling to improve understanding of substellar objects.

Findings

01

Dynamical mass of HD 72946 B is 69.5±0.5 M_Jup.

02

Effective temperature is weakly affected by mass prior, but gravity and radius are strongly influenced.

03

Host and brown dwarf C/O ratios are consistent with molecular cloud formation.

Abstract

Tension remains between the observed and modeled properties of substellar objects, but objects in binary orbits, with known dynamical masses can provide a way forward. HD 72946 B is a recently imaged brown dwarf companion to the nearby, solar type star. We achieve $\sim 100 μ as$ relative astrometry of HD 72946 B in the K-band using VLTI/GRAVITY, unprecedented for a benchmark brown dwarf. We fit an ensemble of measurements of the orbit using orbitize! and derive a strong dynamical mass constraint $M_{B} = 69.5 \pm 0.5 M_{Jup}$ assuming a strong prior on the host star mass $M_{A} = 0.97 \pm 0.01 M_{⊙}$ from an updated stellar analysis. We fit the spectrum of the companion to a grid of self-consistent BT-Settl-CIFIST model atmospheres, and perform atmospheric retrievals using petitRADTRANS. A dynamical mass prior only marginally influences the sampled…

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Taxonomy

TopicsAstro and Planetary Science · Stellar, planetary, and galactic studies · Atmospheric Ozone and Climate