The GRAVITY Young Stellar Object survey -- IX. Spatially resolved   kinematics of hot hydrogen gas in the star/disk interaction region of T Tauri   stars

GRAVITY Collaboration; J. A. Wojtczak (1); L. Labadie (1); K. Perraut; (2); B. Tessore (2); A. Soulain (2); V. Ganci (1); J. Bouvier (2); C.; Dougados (2); E. Al\'ecian (2); H. Nowacki (2); G. Cozzo (2,15); W. Brandner; (3); A. Caratti o Garatti (3,6,7); P. Garcia (9,10); R. Garcia Lopez; (3,6,11); J. Sanchez-Bermudez (3,8); A. Amorim (9,12); M. Benisty (2); J.-P.; Berger (2); G. Bourdarot (4); P. Caselli (4); Y. Cl\'enet (13); P. T. de; Zeeuw (4,14); R. Davies (4); A. Drescher (4); G. Duvert (2); A. Eckart (1,5),; F. Eisenhauer (4); F. Eupen (1); N. M. F\"oster-Schreiber (4); E. Gendron; (13); S. Gillessen (4); S. Grant (4); R. Grellmann (1); G. Hei{\ss}el (13),; Th. Henning (3); S. Hippler (3); M. Horrobin (1); Z. Hubert (2); L. Jocou; (2); P. Kervella (13); S. Labour (13); V. Lapeyr\`ere (13); J.-B. Le Bouquin; (2); P. L\'ena (13); D. Lutz (4); F. Mang (4); T. Ott (4); T. Paumard (13),; G. Perrin (13); S. Scheithauer (13); J. Shangguan (4); T. Shimizu (4); S.; Spezzano (4); O. Straub (4); C. Straubmeier (1); E. Sturm (4); E. van; Dishoeck (4,14); F. Vincent (13); F. Widmann (4) ((1) I. Physikalisches; Institut; Universit\"at zu K\"oln; K\"oln; Germany (2) Univ. Grenoble Alpes,; CNRS; IPAG; Grenoble; France (3) Max Planck Institute for Astronomy,; Heidelberg; Germany (4) Max Planck Institute for Extraterrestrial Physics,; Garching bei M\"unchen; Germany (5) Max-Planck-Institute for Radio Astronomy,; Bonn; Germany (6) Dublin Institute for Advanced Studies; Dublin; Ireland (7); INAF - Osservatorio Astronomico di Capodimonte; Napoli; Italy (8) Instituto; de Astronom\'ia; Universidad Nacional Aut\'onoma de M\'exico; Ciudad de; M\'exico; Mexico (9) CENTRA; Centro de Astrof\'isica e Gravita\c{c}\~ao,; Instituto Superior T\'ecnico; Lisboa; Portugal (10) Universidade do Porto,; Faculdade de Engenharia; Porto; Portugal (11) School of Physics; University; College Dublin; Belfield; Ireland (12) Universidade de Lisboa; Faculdade de; Ci\^encias; Campo Grande; Lisboa; Portugal (13) LESIA; Observatoire de Paris,; PSL Research University; CNRS; Sorbonne Universit\'es; UPMC Univ. Paris 06,; Univ. Paris Diderot; Sorbonne Paris Cit\'e; France (14) Sterrewacht Leiden,; Leiden University; Leiden; The Netherlands (15) Dipartimento di Fisica &; Chimica; Universit\`a di Palermo; Palermo; Italy)

arXiv:2210.13095·astro-ph.SR·September 2, 2024

The GRAVITY Young Stellar Object survey -- IX. Spatially resolved kinematics of hot hydrogen gas in the star/disk interaction region of T Tauri stars

GRAVITY Collaboration, J. A. Wojtczak (1), L. Labadie (1), K. Perraut, (2), B. Tessore (2), A. Soulain (2), V. Ganci (1), J. Bouvier (2), C., Dougados (2), E. Al\'ecian (2), H. Nowacki (2), G. Cozzo (2,15), W. Brandner, (3), A. Caratti o Garatti (3,6,7), P. Garcia (9,10)

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TL;DR

This study uses interferometry to spatially and spectrally resolve hydrogen emission in T Tauri stars, revealing diverse origins such as magnetospheric accretion and outflows, with implications for understanding star-disk interactions.

Contribution

First interferometric spatial and spectral resolution of Br-gamma emission in T Tauri stars, distinguishing between accretion and outflow contributions.

Findings

01

Magnetospheric accretion explains Br-gamma emission in weak accretors.

02

Extended emission suggests outflows contribute to Br-gamma in some stars.

03

Emission region sizes vary, indicating multiple emission mechanisms.

Abstract

Aims: We aim to spatially and spectrally resolve the Br-gamma hydrogen emission line with the methods of interferometry in order to examine the kinematics of the hydrogen gas emission region in the inner accretion disk of a sample of solar-like young stellar objects. The goal is to identify trends and categories among the sources of our sample and to discuss whether or not they can be tied to different origin mechanisms associated with Br-gamma emission in T Tauri stars, chiefly and most prominently magnetospheric accretion. Methods: We observed a sample of seven T Tauri stars for the first time with VLTI GRAVITY, recording spectra and spectrally dispersed interferometric quantities across the Br-gamma line in the NIR K-band. We use them to extract the size of the Br-gamma emission region and the photocenter shifts. To assist in the interpretation, we also make use of radiative…

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