Accretion disc-stellar magnetosphere interaction: field line inflation and the effect on the spin-down torque

Details Accretion disc-stellar magnetosphere interaction: field line inflation and the effect on the spin-down torque Accretion disc-stellar magnetosphere interaction: field line inflation and the effect on the spin-down torque

2000-03-13

arxiv.org/abs/astro-ph/0003186v1

Mon.Not.Roy.Astron.Soc. 317 (2000) 273

Astronomy and Astrophysics

Astrophysics

Accepted by MNRAS. 21 pages, 15 figures. LaTeX2e in the MN style. PostScript files are also available from http://www-star.qmw

Scientific paper

10.1046/j.1365-8711.2000.03541.x

We calculate the structure of a force-free magnetosphere which is assumed to corotate with a central star and which interacts with an embedded differentially rotating accretion disc. The magnetic and rotation axes are aligned and the stellar field is assumed to be a dipole. We concentrate on the case when the amount of field line twisting through the disc-magnetosphere interaction is large and consider different outer boundary conditions. In general the field line twisting produces field line inflation (eg. Bardou & Heyvaerts 1996) and in some cases with large twisting many field lines can become open. We calculate the spin-down torque acting between the star and the disc and we find that it decreases significantly for cases with large field line twisting. This suggests that the oscillating torques observed for some accreting neutron stars could be due to the magnetosphere varying between states with low and high field line inflation. Calculations of the spin evolution of T Tauri stars may also have to be revised in light of the significant effect that field line twisting has on the magnetic torque resulting from star-disc interactions.

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