Neutron Stars: Magnetic equilibria in the crust and timing noise from magnetospheric activity
2900, chemin de la Tour
Montréal, QC Canada
H3T 1J6
514 343-6111
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Consulté 3473 fois
Kostas Gourgouliatos, McGill University
Résumé/abstract:
The evolution of the magnetic field in crusts of Neutron Stars is dominated by the Hall effect. I will discuss equilibria solutions for the structure of the magnetic field in the crusts which are found analytically and numerically and their implications for the flow of the crustal electron fluid. In particular dipole fields should be supported by a uniformly rotating electron fluid. Although these solutions bear some similarities to stellar MHD equilibria, there are some significant differences that can trigger magnetic activity, if one assumes that a neutron star is born in MHD equilibrium.
Complementary to that, I will discuss the observed timing noise in high magnetic field pulsars and magnetars and I will discuss a possible explanation through the variation of the moment of inertia of the magnetosphere
Ce séminaire est présenté par le groupe astronomie et astrophysique du Département de physique de l'Université de Montréal.