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Related papers: Testing Disk-Locking in NGC 2264

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The classical T Tauri star AA Tau presented photometric variability attributed to an inner disk warp, caused by the interaction between the inner disk and an inclined magnetosphere. Previous studies of NGC 2264 have shown that similar…

Rotational evolution in young stars is described by pMS evolutionary tracks including rotation, conservation of angular momentum (AM), and simulations of disk-locking (DL). By assuming that DL is the regulation mechanism for the stellar…

Solar and Stellar Astrophysics · Physics 2016-02-03 N. R. Landin , L. T. S. Mendes , L. P. R. Vaz , S. H. P. Alencar

We report new magnetic field measurements for 14 classical T Tauri stars (CTTSs). We combine these data with one previous field determination in order to compare our observed field strengths with the field strengths predicted by…

Astrophysics · Physics 2009-06-23 Christopher M. Johns-Krull

Although the magnetospheric accretion model has been extensively applied to T Tauri Stars with typical mass accretion rates, the very low accretion regime is still not fully explored. Here we report multi-epoch observations and modeling of…

Solar and Stellar Astrophysics · Physics 2019-11-06 Thanawuth Thanathibodee , Nuria Calvet , James Muzerolle , Cesar Briceno , Ramiro Franco Hernandez , Karina Mauco

Classical T Tauri stars are pre-main-sequence objects that undergo simultaneous accretion, wind outflow, and coronal X-ray emission. The impact of plasma on the stellar surface from magnetospheric accretion streams is likely to be a…

Solar and Stellar Astrophysics · Physics 2014-11-20 Steven R. Cranmer

Transitional disks (TDs) are thought to be a late evolutionary stage of protoplanetary disks with dust depleted inner regions. The mechanism responsible for this depletion is still under debate. To constrain the models it is mandatory to…

Solar and Stellar Astrophysics · Physics 2014-09-05 C. F. Manara , L. Testi , A. Natta , G. Rosotti , M. Benisty , B. Ercolano , L. Ricci

We developed a grid of stellar rotation models for low-mass and solar-type Classical T Tauri stars (CTTS) ($0.3M_{\odot}<M_{\ast}<1.2M_{\odot}$). These models incorporate the star-disk interaction and magnetospheric ejections to investigate…

We construct detailed vertical structure models of irradiated accretion disks around T Tauri stars with interstellar medium dust uniformly mixed with gas. The dependence of the structure and emission properties on mass accretion rate,…

Astrophysics · Physics 2009-10-31 Paola D'Alessio , Nuria Calvet , Lee Hartmann , Susana Lizano , Jorge Canto

The magnetic interaction between a classical T Tauri star and its surrounding accretion disk is thought to influence its rotational evolution. We use 2.5D magnetohydrodynamic, axisymmetric simulations of star-disk interaction, computed via…

Solar and Stellar Astrophysics · Physics 2022-04-20 Lewis G. Ireland , Sean P. Matt , Claudio Zanni

Disk warps around classical T Tauri stars (CTTS) can periodically obscure the central star for some viewing geometries. For these so-called AA Tau-like variables, the obscuring material is located in the inner disk and absorption…

Solar and Stellar Astrophysics · Physics 2018-07-11 P. C. Schneider , C. F Manara , S. Facchini , H. M. Guenther , G. J. Herczeg , D. Fedele , P. S. Teixeira

Observations of T Tauri stars and young brown dwarfs suggest that the accretion rates of their disks scale strongly with the central stellar mass, approximately $\mdot \propto M_*^2$. No dependence of accretion rate on stellar mass is…

Astrophysics · Physics 2008-11-26 Lee Hartmann , Paola D'Alessio , Nuria Calvet , James Muzerolle

We present a high dispersion optical spectrum of St 34 and identify the system as a spectroscopic binary with components of similar luminosity and temperature (both M3+/-0.5). Based on kinematics, signatures of accretion, and location on an…

Astrophysics · Physics 2016-08-30 Russel White , Lynne Hillenbrand

How T Tauri stars remain slowly rotating while still accreting material is a long-standing puzzle. Current models suggest that these stars may lose angular momentum through magnetospheric ejections of disk material (MEs) and…

Solar and Stellar Astrophysics · Physics 2025-04-30 Lukas Gehrig , Eric Gaidos , Laura Venuti , Ann Marie Cody , Neal J. Turner

We explore UV and optical variability signatures for several hundred members of NGC 2264 (3 Myr). We performed simultaneous u- and r-band monitoring over two full weeks with CFHT/MegaCam. About 750 young stars are probed; 40% of them are…

Magnetospheric accretion is a key process that shapes the inner disks of T Tauri stars, controlling mass and angular momentum evolution. It produces strong ultraviolet and optical emission that irradiates the planet-forming environment. In…

We show that discs accreting onto the magnetosphere of a rotating star can end up in a 'trapped' state, in which the inner edge of the disc stays near the corotation radius, even at low and varying accretion rates. The accretion in these…

Solar and Stellar Astrophysics · Physics 2015-05-30 Caroline R. D'Angelo , Hendrik C. Spruit

We present a model for the rotational evolution of a young, solar-mass star interacting magnetically with an accretion disk. As in a previous paper (Paper I), the model includes changes in the star's mass and radius as it descends the…

Solar and Stellar Astrophysics · Physics 2015-06-03 Sean P. Matt , Giovanni Pinzon , Thomas P. Greene , Ralph E. Pudritz

Variability is a signature property of cool young stars, particularly for those surrounded by disks. Traditional single-band time series display complex features associated with accretion, disk structure, and accompanying stellar activity,…

Solar and Stellar Astrophysics · Physics 2015-06-12 A. M. Cody , J. R. Stauffer , G. Micela , A. Baglin , the CSI 2264 Team

Recent observations show a strong correlation between stellar mass and accretion rate in young stellar and sub-stellar objects, with the scaling $\dot{M}_{acc} \propto M_*^2$ holding over more than four orders of magnitude in accretion…

Astrophysics · Physics 2009-11-11 R. D. Alexander , P. J. Armitage