We study a resistive tearing instability developing in a system evolving through the combined effect of Hall drift in the Electron-MHD limit and Ohmic dissipation. We explore first the exponential growth of the instability in the linear case and we find the fastest growing mode, the corresponding eigenvalues and dispersion relation. The instability growth rate scales as γ ∝ B2/3σ−1/3 where B is the magnetic field and σ the electrical conductivity. We confirm the development of the tearing resistive instability in the fully non-linear case, in a plane parallel configuration where the magnetic field polarity reverses, through simulations of systems initiating in Hall equilibrium with some superimposed perturbation. Following a transient pha...
It is generally accepted that the nonlinear, dynamical evolution of magnetic fields in the interior ...
Under normal conditions in a neutron-star (NS) crust, ions are locked in place in the crustal lattic...
Magnetic field evolution in neutron-star crusts is driven by the Hall effect and Ohmic dissipation, ...
We study a resistive tearing instability developing in a system evolving through the combined effect...
We investigate the density-shear instability in Hall-MHD via numerical simulation of the full non-li...
In the solid crusts of neutron stars, the advection of the magnetic field by the current-carrying el...
Context. The Hall effect is an important nonlinear mechanism affecting the evolution of magnetic fie...
It is generally accepted that the nonlinear, dynamical evolution of magnetic fields in the interior ...
Neutron stars host the strongest magnetic fields that we know of in the Universe. Their magnetic fie...
We consider the eect of Hall-drift on the evolution of magnetic elds in neutron star crusts using a ...
In former papers we showed that during the decay of a neutron star's magnetic field under the influe...
We present calculations of magnetic field evolution by the Hall effect and Ohmic decay in neutron st...
We present the first fully self-consistent three dimensional model of a neutron star’s magnetic fiel...
In former papers we showed that during the decay of a neutron star's magnetic field under the influe...
Context.The Hall drift, namely, the transport of magnetic flux by the moving electrons giving rise t...
It is generally accepted that the nonlinear, dynamical evolution of magnetic fields in the interior ...
Under normal conditions in a neutron-star (NS) crust, ions are locked in place in the crustal lattic...
Magnetic field evolution in neutron-star crusts is driven by the Hall effect and Ohmic dissipation, ...
We study a resistive tearing instability developing in a system evolving through the combined effect...
We investigate the density-shear instability in Hall-MHD via numerical simulation of the full non-li...
In the solid crusts of neutron stars, the advection of the magnetic field by the current-carrying el...
Context. The Hall effect is an important nonlinear mechanism affecting the evolution of magnetic fie...
It is generally accepted that the nonlinear, dynamical evolution of magnetic fields in the interior ...
Neutron stars host the strongest magnetic fields that we know of in the Universe. Their magnetic fie...
We consider the eect of Hall-drift on the evolution of magnetic elds in neutron star crusts using a ...
In former papers we showed that during the decay of a neutron star's magnetic field under the influe...
We present calculations of magnetic field evolution by the Hall effect and Ohmic decay in neutron st...
We present the first fully self-consistent three dimensional model of a neutron star’s magnetic fiel...
In former papers we showed that during the decay of a neutron star's magnetic field under the influe...
Context.The Hall drift, namely, the transport of magnetic flux by the moving electrons giving rise t...
It is generally accepted that the nonlinear, dynamical evolution of magnetic fields in the interior ...
Under normal conditions in a neutron-star (NS) crust, ions are locked in place in the crustal lattic...
Magnetic field evolution in neutron-star crusts is driven by the Hall effect and Ohmic dissipation, ...