Add to ORKGWith Monte Carlo simulations and molecular dynamics simulations, we investigate the magnetic domain-wall dynamics in low dimensions and at a zero or low temperature. Based on the Ising model, Clock model and 4 φ theory with quenched disorder and under different driving fields, we systematically study the pinning-depinning transition and relaxation-to-creep transition of domain-wall motion. Results are compared with experiments and other theories
Magnetic domain wall motion is at the heart of new magnetoelectronic technologies and hence the need...
Recent theoretical results are highlighted that illustrate some of the interesting phenomena associa...
We investigate experimentally pinning and depinning dynamics of a magnetic domain wall (DW) from a n...
By means of Monte Carlo computer simulations we study the domain-growth kinetics after a quench acro...
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...
Domain wall creep near the depinning transition is investigated by using micromagnetic simulations o...
We present a model for the dynamics of current-driven and field-driven domain-wall lines at nonzero ...
Monte Carlo simulations of diluted Ising-type antiferromagnets in a uniform external magnetic field ...
We present a line-based model of transverse domain walls in thin magnetic strips, to study the effec...
The far-from-equilibrium low-temperature dynamics of ultrathin magnetic films is analyzed by using M...
We consider the effect of disorder on the dynamics of a transverse domain wall in thin and narrow ma...
Domain walls in nanoconstrictions are investigated with a focus on thermal properties. In general, t...
In this thesis magnetic domain walls in laterally confined ferromagnetic elements are studied, as we...
The motion of domain walls in magnetic materials is a typical example of a creep process, usually ch...
Magnetic domain wall motion is at the heart of new magnetoelectronic technologies and hence the need...
Recent theoretical results are highlighted that illustrate some of the interesting phenomena associa...
We investigate experimentally pinning and depinning dynamics of a magnetic domain wall (DW) from a n...
By means of Monte Carlo computer simulations we study the domain-growth kinetics after a quench acro...
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...
Domain wall creep near the depinning transition is investigated by using micromagnetic simulations o...
We present a model for the dynamics of current-driven and field-driven domain-wall lines at nonzero ...
Monte Carlo simulations of diluted Ising-type antiferromagnets in a uniform external magnetic field ...
We present a line-based model of transverse domain walls in thin magnetic strips, to study the effec...
The far-from-equilibrium low-temperature dynamics of ultrathin magnetic films is analyzed by using M...
We consider the effect of disorder on the dynamics of a transverse domain wall in thin and narrow ma...
Domain walls in nanoconstrictions are investigated with a focus on thermal properties. In general, t...
In this thesis magnetic domain walls in laterally confined ferromagnetic elements are studied, as we...
The motion of domain walls in magnetic materials is a typical example of a creep process, usually ch...
Magnetic domain wall motion is at the heart of new magnetoelectronic technologies and hence the need...
Recent theoretical results are highlighted that illustrate some of the interesting phenomena associa...
We investigate experimentally pinning and depinning dynamics of a magnetic domain wall (DW) from a n...