Add to ORKGWe present a model for the dynamics of current-driven and field-driven domain-wall lines at nonzero temperature. We compute thermally averaged drift velocities from the Fokker-Planck equation that describes the nonzero-temperature dynamics of the domain wall. As special limits of this general description, we describe rigid domain walls as well as vortex domain walls. In these limits, we also determine depinning times of the domain wall from an extrinsic pinning potential. We compare our theory with previous theoretical and experimental works
We present a line-based model of transverse domain walls in thin magnetic strips, to study the effec...
So far, we have derived some general expressions for domain-wall motion and the spin motive force. W...
The observation of magnetic nanostructures is a highly topical field of research in recent years. Du...
We present a model for the dynamics of current-driven and field-driven domain-wall lines at nonzero ...
With Monte Carlo simulations and molecular dynamics simulations, we investigate the magnetic domain-...
We outline a general framework to determine the effect of nonequilibrium fluctuations on driven coll...
In this thesis magnetic domain walls in laterally confined ferromagnetic elements are studied, as we...
We present a model for current-driven motion of a magnetic domain-wall line, in which the dynamics o...
Taking into account the coupling between the position of the wall and an internal degree of freedom,...
We examine the dynamics of a domain wall subject to a pinning potential, in situations where the pos...
We predict a thermodynamic magnon recoil effect for domain wall motions in the presence of temperatu...
Magnetic domain walls are proposed as data carriers in future spintronic devices, whose reliability ...
Part of Special issue on domain wall dynamics in nanostructures We consider the influence of an elec...
The issue of whether a thermal gradient acts like a magnetic field or an electric current in the dom...
It is known that the permittivity of ferroelectric polydomain films and single crystals in weak elec...
We present a line-based model of transverse domain walls in thin magnetic strips, to study the effec...
So far, we have derived some general expressions for domain-wall motion and the spin motive force. W...
The observation of magnetic nanostructures is a highly topical field of research in recent years. Du...
We present a model for the dynamics of current-driven and field-driven domain-wall lines at nonzero ...
With Monte Carlo simulations and molecular dynamics simulations, we investigate the magnetic domain-...
We outline a general framework to determine the effect of nonequilibrium fluctuations on driven coll...
In this thesis magnetic domain walls in laterally confined ferromagnetic elements are studied, as we...
We present a model for current-driven motion of a magnetic domain-wall line, in which the dynamics o...
Taking into account the coupling between the position of the wall and an internal degree of freedom,...
We examine the dynamics of a domain wall subject to a pinning potential, in situations where the pos...
We predict a thermodynamic magnon recoil effect for domain wall motions in the presence of temperatu...
Magnetic domain walls are proposed as data carriers in future spintronic devices, whose reliability ...
Part of Special issue on domain wall dynamics in nanostructures We consider the influence of an elec...
The issue of whether a thermal gradient acts like a magnetic field or an electric current in the dom...
It is known that the permittivity of ferroelectric polydomain films and single crystals in weak elec...
We present a line-based model of transverse domain walls in thin magnetic strips, to study the effec...
So far, we have derived some general expressions for domain-wall motion and the spin motive force. W...
The observation of magnetic nanostructures is a highly topical field of research in recent years. Du...