Hall Attractor in Axially Symmetric Magnetic Fields in Neutron Star Crusts
- 29 April 2014
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 112 (17), 171101
- https://doi.org/10.1103/physrevlett.112.171101
Abstract
We find an attractor for an axially symmetric magnetic field evolving under the Hall effect and subdominant Ohmic dissipation, resolving the question of the long-term fate of the magnetic field in neutron star crusts. The electron fluid is in isorotation, analogous to Ferraro’s law, with its angular velocity being approximately proportional to the poloidal magnetic flux, . This equilibrium is the long-term configuration of a magnetic field evolving because of the Hall effect and Ohmic dissipation. For an initial dipole-dominated field, the attractor consists mainly of a dipole and an octupole component accompanied by an energetically negligible quadrupole toroidal field. The field dissipates in a self-similar way: Although higher multipoles should decay faster, the toroidal field mediates transfer of energy into them from the lower ones, leading to an advection diffusion equilibrium and keeping the ratio of the poloidal multipoles almost constant. This has implications for the structure of the intermediate-age neutron stars, suggesting that their poloidal field should consist of a dipole and an octupole component accompanied by a very weak toroidal quadrupole. For initial conditions that have a higher multipole structure, the attractor consists mainly of and poloidal components. DOI: http://dx.doi.org/10.1103/PhysRevLett.112.171101 © 2014 American Physical Society
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