Luca Naso, John Miller, Wlodek Kluzniak
Published 2013-12-13Version 1
Accretion disks are ubiquitous in the universe and it is generally accepted that magnetic fields play a pivotal role in accretion-disk physics. The spin history of millisecond pulsars, which are usually classified as magnetized neutron stars spun up by an accretion disk, depends sensitively on the magnetic field structure, and yet highly idealized models from the 80s are still being used for calculating the magnetic field components. We present a possible way of improving the currently used models with a semi-analytic approach. The resulting magnetic field profile of both the poloidal and the toroidal component can be very different from the one suggested previously. This might dramatically change our picture of which parts of the disk tend to spin the star up or down.
Comments: Proceedings of the 3rd Galileo-Xu Guangqi Meeting. Published on International Journal of Modern Physics: Conference Series (5 pages, 2 figures). Corresponding paper published on MNRAS 435, 2633 (2013)
Journal: Vol. 23 (2013) 106-110
Magnetic field structure and torque in accretion discs around millisecond pulsars
Examining the brightness variability, accretion disk, and evolutionary stage of the binary OGLE-LMC-ECL-14413
Magnetic Field Structure of Orion Source I
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