We present the first fully self-consistent three dimensional model of a neutron star’s magnetic field, generated by electric currents in the star’s crust via the Hall effect. We find that the global-scale field converges to a dipolar Hall-attractor state, as seen in recent axisymmetric models, but that small-scale features in the magnetic field survive even on much longer time scales. These small-scale features propagate toward the dipole equator, where the crustal electric currents organize themselves into a strong equatorial jet. By calculating the distribution of magnetic stresses in the crust, we predict that neutron stars with fields stronger than 1014 G can still be subject to starquakes more than 105 yr after their formation
It is generally accepted that the nonlinear, dynamical evolution of magnetic fields in the interior ...
Magnetic field evolution in neutron-star crusts is driven by the Hall effect and Ohmic dissipation, ...
Force-free pulsar magnetospheres develop a large-scale poloidal electric current circuit that flows ...
It is generally accepted that the nonlinear, dynamical evolution of magnetic fields in the interior ...
Current models of magnetars require extremely strong magnetic fields to explain their observed quies...
Under normal conditions in a neutron-star (NS) crust, ions are locked in place in the crustal lattic...
Neutron stars host the strongest magnetic fields that we know of in the Universe. Their magnetic fie...
The study of long-term evolution of neutron star (NS) magnetic fields is key to understanding the ri...
The long-term evolution of the internal, strong magnetic fields of neutron stars needs a specific nu...
We present the first 3D fully coupled magneto-thermal simulations of neutron stars (including the mo...
The long-term evolution of the internal, strong magnetic fields of neutron stars needs a specific nu...
We explore magnetic field configurations that lead to the formation of magnetic spots on the surface...
According to the partially screened gap scenario, an efficient electron-positron pair creation, a ge...
It is proposed that magnetic field arises naturally in neutron stars as a consequence of thermal eff...
The magnetic susceptibility of the degenerate free electrons in the crust of a neutron star is compu...
It is generally accepted that the nonlinear, dynamical evolution of magnetic fields in the interior ...
Magnetic field evolution in neutron-star crusts is driven by the Hall effect and Ohmic dissipation, ...
Force-free pulsar magnetospheres develop a large-scale poloidal electric current circuit that flows ...
It is generally accepted that the nonlinear, dynamical evolution of magnetic fields in the interior ...
Current models of magnetars require extremely strong magnetic fields to explain their observed quies...
Under normal conditions in a neutron-star (NS) crust, ions are locked in place in the crustal lattic...
Neutron stars host the strongest magnetic fields that we know of in the Universe. Their magnetic fie...
The study of long-term evolution of neutron star (NS) magnetic fields is key to understanding the ri...
The long-term evolution of the internal, strong magnetic fields of neutron stars needs a specific nu...
We present the first 3D fully coupled magneto-thermal simulations of neutron stars (including the mo...
The long-term evolution of the internal, strong magnetic fields of neutron stars needs a specific nu...
We explore magnetic field configurations that lead to the formation of magnetic spots on the surface...
According to the partially screened gap scenario, an efficient electron-positron pair creation, a ge...
It is proposed that magnetic field arises naturally in neutron stars as a consequence of thermal eff...
The magnetic susceptibility of the degenerate free electrons in the crust of a neutron star is compu...
It is generally accepted that the nonlinear, dynamical evolution of magnetic fields in the interior ...
Magnetic field evolution in neutron-star crusts is driven by the Hall effect and Ohmic dissipation, ...
Force-free pulsar magnetospheres develop a large-scale poloidal electric current circuit that flows ...