Conference Proceedings

Magnetic field evolution of accreting neutron stars

DJB Payne, M Vigelius, A Melatos, R Wijnands (ed.), D Altamirano (ed.), P Soleri (ed.), N Degenaar (ed.), N Rea (ed.), P Casella (ed.), A Patruno (ed.), M Linares (ed.)

DECADE OF ACCRETING MILLISECOND X-RAY PULSARS | AMER INST PHYSICS | Published : 2008

Abstract

We discuss the effect of accretion on the evolution of the magnetic field of a neutron star and highlight the main unresolved issues. Charged, accreted matter is funneled towards the magnetic poles where it heats the stellar surface and alters its magnetic structure resulting in an overall reduction of the magnetic dipole moment. Mechanisms for accretion‐induced field reduction include accelerated Ohmic decay, vortex‐fluxoid interactions, and magnetic burial or screening. We discuss how these can be integrated into a global model and detail recent self‐consistent, three‐dimensional, magneto‐hydrodynamic, calculations (using analytic Grad‐Shafranov methods and the numerical solver ZEUS‐MP) wh..

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University of Melbourne Researchers