We numerically model evolution of magnetic fields inside a neutron star under the influence of ambipolar diffusion in the weak-coupling mode in the one-fluid MHD approximation. Our simulations are three-dimensional and performed in spherical coordinates. Our model covers the neutron star core and includes crust where the magnetic field decay is due to Ohmic decay. We discover an instability of poloidal magnetic field under the influence of ambipolar diffusion. This instability develops in the neutron star core and grows on a timescale of 0.2 dimensionless times, reaching saturation by 2 dimensionless times. The instability leads to formation of azimuthal magnetic field with azimuthal wavenumber $m=14$ (at the moment of saturation) which kee...
We present the first 3D fully coupled magneto-thermal simulations of neutron stars (including the mo...
The evolutionary scenario of a neutron star magnetic field is examined assuming a spin-down induced ...
Observational evidence, and theoretical models of the magnetic field evolution of neutron stars is d...
We numerically model evolution of magnetic fields inside a neutron star under the influence of ambip...
We study ambipolar diffusion in strongly magnetized neutron stars, with special focus on the effects...
Simulating the long-term evolution of temperature and magnetic fields in neutron stars is a major ef...
As another step towards understanding the long-term evolution of the magnetic field in neutron stars...
The study of long-term evolution of neutron star (NS) magnetic fields is key to understanding the ri...
We investigate three mechanisms that promote the loss of magnetic flux from an isolated neutron star...
The long-term evolution of the internal, strong magnetic fields of neutron stars needs a specific nu...
This paper reviews the current status of the theoretical models of the evolution of the magnetic fie...
Under normal conditions in a neutron-star (NS) crust, ions are locked in place in the crustal lattic...
Artículo de publicación ISIWe study the effect of the non-linear process of ambipolar diffusion (joi...
We present the first fully self-consistent three dimensional model of a neutron star’s magnetic fiel...
Context. The presence of magnetic fields in the crust of neutron stars (NSs) causes a non-sphericall...
We present the first 3D fully coupled magneto-thermal simulations of neutron stars (including the mo...
The evolutionary scenario of a neutron star magnetic field is examined assuming a spin-down induced ...
Observational evidence, and theoretical models of the magnetic field evolution of neutron stars is d...
We numerically model evolution of magnetic fields inside a neutron star under the influence of ambip...
We study ambipolar diffusion in strongly magnetized neutron stars, with special focus on the effects...
Simulating the long-term evolution of temperature and magnetic fields in neutron stars is a major ef...
As another step towards understanding the long-term evolution of the magnetic field in neutron stars...
The study of long-term evolution of neutron star (NS) magnetic fields is key to understanding the ri...
We investigate three mechanisms that promote the loss of magnetic flux from an isolated neutron star...
The long-term evolution of the internal, strong magnetic fields of neutron stars needs a specific nu...
This paper reviews the current status of the theoretical models of the evolution of the magnetic fie...
Under normal conditions in a neutron-star (NS) crust, ions are locked in place in the crustal lattic...
Artículo de publicación ISIWe study the effect of the non-linear process of ambipolar diffusion (joi...
We present the first fully self-consistent three dimensional model of a neutron star’s magnetic fiel...
Context. The presence of magnetic fields in the crust of neutron stars (NSs) causes a non-sphericall...
We present the first 3D fully coupled magneto-thermal simulations of neutron stars (including the mo...
The evolutionary scenario of a neutron star magnetic field is examined assuming a spin-down induced ...
Observational evidence, and theoretical models of the magnetic field evolution of neutron stars is d...