The GRAVITY young stellar object survey V. The orbit of the T Tauri   binary star WW Cha

GRAVITY Collaboration: F. Eupen (1); L. Labadie (1); R. Grellmann (1),; K. Perraut (2); W. Brandner (3); G. Duch\^ene (4,2); R. K\"ohler (5); J.; Sanchez-Bermudez (3,6); R. Garcia Lopez (3,7,8); A. Caratti o Garatti; (3,7,8); M. Benisty (2,9); C. Dougados (2); P. Garcia (10,11); L. Klarmann; (3); A. Amorim (10,16); M. Baub\"ock (13); J.P. Berger (2); P. Caselli (13),; Y. Cl\'enet (12); V. Coud\'e du Foresto (12); P.T. de Zeeuw (13; 17); A.; Drescher (13); G. Duvert (2); A. Eckart (1; 15); F. Eisenhauer (13); M. Filho; (10; 11); V. Ganci (1); F. Gao (13); E. Gendron (12); R. Genzel (13); S.; Gillessen (13); G. Heissel (12); Th. Henning (3); S. Hippler (3); M. Horrobin; (1); Z. Hubert (2); A. Jim\'enez-Rosales (13); L. Jocou (2); P. Kervella; (12); S. Lacour (12); V. Lapeyr\`ere (12); J.B. Le Bouquin (2); P. L\'ena; (12); T. Ott (13); T. Paumard (12); G. Perrin (12); O. Pfuhl (14); G.; Rodr\'iguez-Coira (12); G. Rousset (12); S. Scheithauer (3); J. Shangguan; (13); T. Shimizu (13); J. Stadler (13); O. Straub (13); C. Straubmeier (2),; E. Sturm (13); E. van Dishoeck (13; 17); F. Vincent (12); S.D. von Fellenberg; (13); F. Widmann (13); J. Woillez (14); A. Wojtczak (1) ((1) I.; Physikalisches Institut; Universit\"at zu K\"oln; (2) Univ. Grenoble Alpes,; CNRS; IPAG; (3) Max Planck Institute for Astronomy; (4) Astronomy Department,; University of California; (5) University of Vienna; Department of; Astrophysics; (6) Instituto de Astronom\'ia; Universidad Nacional Aut\'onoma; de M\'exico; (7) Dublin Institute for Advanced Studies; (8) School of; Physics; University College Dublin; (9) Unidad Mixta Internacional; Franco-Chilena de Astronom\'ia (CNRS UMI 3386); Departamento de Astronom\'ia,; Universidad de Chile; (10) CENTRA; Centro de Astrof\'isica e; Gravita\c{c}\~ao; Instituto Superior T\'ecnico; (11) Universidade do Porto,; Faculdade de Engenharia; (12) LESIA; Observatoire de Paris; PSL Research; University; CNRS; (13) Max Planck Institute for Extraterrestrial Physics,; (14) European Southern Observatory; (15) Max-Planck-Institute for Radio; Astronomy; (16) Universidade de Lisboa - Faculdade de Ci\^encias; (17); Sterrewacht Leiden; Leiden University)

arXiv:2102.00122·astro-ph.SR·April 14, 2021

The GRAVITY young stellar object survey V. The orbit of the T Tauri binary star WW Cha

GRAVITY Collaboration: F. Eupen (1), L. Labadie (1), R. Grellmann (1),, K. Perraut (2), W. Brandner (3), G. Duch\^ene (4,2), R. K\"ohler (5), J., Sanchez-Bermudez (3,6), R. Garcia Lopez (3,7,8), A. Caratti o Garatti, (3,7,8), M. Benisty (2,9), C. Dougados (2), P. Garcia (10,11)

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TL;DR

This study determines the orbit and system mass of the T Tauri binary WW Cha using interferometry, revealing its orbital parameters, disk alignment, and variable flux ratios, which are crucial for understanding binary-star interactions with circumstellar material.

Contribution

First orbital determination of WW Cha binary using multi-epoch interferometric data, linking orbital dynamics with disk properties and accretion processes.

Findings

01

Secondary star orbits primary with a 206.55-day period.

02

System total mass is approximately 3.20 solar masses.

03

Orbital plane aligns with the outer disk, indicating angular momentum coherence.

Abstract

The young T Tauri star WW Cha was recently proposed to be a close binary object with strong infrared and submillimeter excess associated with circum-system emission. This makes WW Cha a very interesting source for studying the influence of dynamical effects on circumstellar as well as circumbinary material. We derive the relative astrometric positions and flux ratios of the stellar companion in WW Cha from the interferometric model fitting of observations made with the VLTI instruments AMBER, PIONIER, and GRAVITY in the near-infrared from 2011 to 2020. For two epochs, the resulting uv-coverage in spatial frequencies permits us to perform the first image reconstruction of the system in the K band. The positions of nine epochs are used to determine the orbital elements and the total mass of the system. We find the secondary star orbiting the primary with a period of T=206.55 days, a…

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