The GRAVITY Young Stellar Object survey. VII. The inner dusty disks of T Tauri stars

The GRAVITY Collaboration: K. Perraut (1); L. Labadie (2); J. Bouvier (1); F. M\'enard (1); L. Klarmann (3); C. Dougados (1); M. Benisty (1,4); J.-P. Berger (1); Y.-I. Bouarour (5,11); W. Brandner (3); A. Caratti o Garatti (5,15); P. Caselli (6); P.T. de Zeeuw (6,9); R. Garcia-Lopez (3,5,11); T. Henning (3); J. Sanchez-Bermudez (3,7); A. Sousa (1); E. van Dishoeck (6,9); E. Al\'ecian (1); A. Amorim (12,13); Y. Cl\'enet (8); R. Davies (6); A. Drescher (6); G. Duvert (1); A. Eckart (2,10); F. Eisenhauer (6); N.M. F\"orster-Schreiber (6); P. Garcia{\i}nst (12,14); E. Gendron (8); R. Genzel (6); S. Gillessen (6); R. Grellmann (2); G. Heissel (8); S. Hippler (3); M. Horrobin (2); Z. Hubert (1); L. Jocou (1); P. Kervella (8); S. Lacour (8); V. Lapeyr\`ere (8); J.-B. Le Bouquin (1); P. L\'ena (8); D. Lutz (6); T. Ott (6); T. Paumard (8); G. Perrin (8); S. Scheithauer (3); J. Shangguan (6); T. Shimizu (6); J. Stadler (6); O. Straub (6); C. Straubmeier (2); E. Sturm (6); L. Tacconi (6); F. Vincent (8); S. von Fellenberg (6); F. Widmann (6); ((1) Univ. Grenoble Alpes; CNRS; IPAG; France; (2) I. Physikalisches Institut; Universit\"at zu K\"oln; K\"oln; Germany; (3) Max-Planck Institute for Astronomy; K\"onigstuhl 17; Germany; (4) Unidad Mixta Internacional Franco-Chilena de Astronom\'ia (CNRS UMI 3386); Departamento de Astronom\'ia; Universidad de Chile; Santiago; Chile; (5) Dublin Institute for Advanced Studies; Dublin; Ireland; (6) Max Planck Institute for Extraterrestrial Physics; Giessenbachstrasse; 85741 Garching bei M\"unchen; Germany; (7) Instituto de Astronom\'ia; Universidad Nacional Aut\'onoma de M\'exico; Ciudad de M\'exico; Mexico; (8) LESIA; Observatoire de Paris; PSL Research University; CNRS; Sorbonne Universit\'es; UPMC Univ. Paris 06; Univ. Paris Diderot; Sorbonne Paris Cit\'e; France; (9) Leiden Observatory; Leiden; The Netherlands; (10) Max-Planck-Institute for Radio Astronomy; Bonn; Germany; (11) School of Physics; University College Dublin; Belfield; Dublin 4; Ireland; (12) CENTRA; Centro de Astrof\'isica e Gravitacao; Instituto Superior T\'ecnico; Lisboa; Portugal; (13) Universidade de Lisboa - Faculdade de Ci\^encias; Lisboa; Portugal; (14) Universidade do Porto; Faculdade de Engenharia; Porto; Portugal; (15) INAF - Osservatorio Astronomico di Capodimonte; Napoli; Italy)

arXiv:2109.11826·astro-ph.SR·November 26, 2025

The GRAVITY Young Stellar Object survey. VII. The inner dusty disks of T Tauri stars

The GRAVITY Collaboration: K. Perraut (1), L. Labadie (2), J. Bouvier (1), F. M\'enard (1), L. Klarmann (3), C. Dougados (1), M. Benisty (1,4), J.-P. Berger (1), Y.-I. Bouarour (5,11), W. Brandner (3), A. Caratti o Garatti (5,15), P. Caselli (6), P.T. de Zeeuw (6,9)

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TL;DR

This study spatially resolves the inner regions of T Tauri star disks, revealing that their sizes are larger than sublimation models predict and identifying disk misalignments, thus advancing understanding of disk morphology and star formation.

Contribution

It provides the first detailed interferometric analysis of T Tauri disks at sub-au scales, extending the radius-luminosity relation and exploring disk-star alignment.

Findings

01

Inner disk sizes are larger than sublimation radius predictions.

02

No clear correlation between K-band size and accretion rate.

03

Detected misalignments between inner and outer disks in some objects.

Abstract

These protoplanetary disks in T Tauri stars play a central role in star and planet formation. We spatially resolve at sub-au scales the innermost regions of a sample of T Tauri's disks to better understand their morphology and composition. We extended our homogeneous data set of 27 Herbig stars and collected near-IR K-band observations of 17 T Tauri stars, spanning effective temperatures and luminosities in the ranges of ~4000-6000 K and ~0.4-10 Lsun. We focus on the continuum emission and develop semi-physical geometrical models to fit the interferometric data and search for trends between the properties of the disk and the central star. The best-fit models of the disk's inner rim correspond to wide rings. We extend the Radius-luminosity relation toward the smallest luminosities (0.4-10 Lsun) and find the R~L^(1/2) trend is no longer valid, since the K-band sizes measured with GRAVITY…

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