A Critique of Current Magnetic-Accretion Models for Classical T-Tauri
  Stars

Bouvier J.; Brown A.; Cowling T. G.; Haro G., H.; Hodgkin S. T.; Johnstone R. M.; Johnstone R. M.; Joncour I.; Konigl A.; Lynden-Bell D.; Pedro N. Safier; Preibisch T.; Rosner R.; Sakurai T.; Schussler M.; White S. M.; Yamauchi S.

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A Critique of Current Magnetic-Accretion Models for Classical T-Tauri Stars

Authors: Bouvier J.
Brown A.
Cowling T. G.
H. Haro G.
Hodgkin S. T.
Johnstone R. M.
Johnstone R. M.
Joncour I.
Konigl A.
Lynden-Bell D.
Pedro N. Safier
Preibisch T.
Rosner R.
Sakurai T.
Schussler M.
White S. M.
Yamauchi S.
Publication date: 16 September 1997
Publisher: 'University of Chicago Press'
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Abstract

Current magnetic-accretion models for classical T-Tauri stars rely on a strong, dipolar magnetic field of stellar origin to funnel the disk material onto the star, and assume a steady-state. In this paper, I critically examine the physical basis of these models in light of the observational evidence and our knowledge of magnetic fields in low-mass stars, and find it lacking. I also argue that magnetic accretion onto these stars is inherently a time-dependent problem, and that a steady-state is not warranted. Finally, directions for future work towards fully-consistent models are pointed out.Comment: 2 figure

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