Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/73124
Title: Radiation Effects on Impact of Accretion Streams in Classical T Tauri Stars
Authors: Colombo, S.
Ibgui, L.
Orlando, S.
Rodriguez, R. 
Espinosa, G. 
Gonzalez, M.
Stehle, C.
de Sa, L.
UNESCO Clasification: 21 Astronomía Astrofísica
Issue Date: 2019
Journal: Astronomical Society of the Pacific conference series 
Conference: Conference on Radiative Signatures from the Cosmos 
Abstract: Classical T Tauri Stars (CTTSs) are young stars accreting mass from their circumstellar disks. According to the largely accepted magnetospheric accretion scenario, the disk extends up to the truncation radius. In this region, the magnetic field is strong enough to disrupt the inner part of the disk and to channel the material towards the star forming accretion columns. The channeled material impacts onto the stellar surface producing shocks that heat up the plasma at a few million degrees. In the last twenty years, the X-ray and UV observations of these systems have raised several questions. In particular, the UV lines arising from the accretion regions show complex profiles, which cannot be easily interpreted using current accretion models. Moreover, the observed X-ray luminosity is systematically below the value predicted by theoretical models. To tackle these problems, we modeled the structure and the dynamics of the plasma in the impact region using radiation hydrodynamics simulations, including, for the first time, the effects of radiative transport in the Non-Local Thermodynamic Equilibrium (NLTE) regime. The radiation arising from the shocked plasma is partially absorbed by the unshocked accretion column. As a result, due to the absorption of Xrays arising from the shocked plasma at the impact region, the pre-shock down-falling accreted material is gradually heated up to a few 105 K. We discuss the implication of this pre-shock heating for the UV and X-ray emission arising from the impact region.
URI: http://hdl.handle.net/10553/73124
ISBN: 978-1-58381-925-8
ISSN: 1050-3390
Source: Astronomical Society of the Pacific conference series [ISSN 1050-3390], v. 519, p. 299-308, (2019)
Appears in Collections:Actas de congresos
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