Add to ORKGWe investigated the transport dynamics of individual magnetic domain walls by employing electrical measurements in multiterminal Ga1–xMnxAs microdevices. Domain wall propagation velocities were deduced from time-of-flight planar Hall measurements between multiple electrical probes of our samples. Domain wall motion induced by both magnetic field and electric currents was systematically investigated. Dependent on the strength of applied in-plane magnetic field, two regimes of domain wall motion, involving thermally assisted flow for low fields and viscous flow for high fields, have been identified. However our data shows no evidence of spin-current induced domain wall motion
Current-induced domain wall motion along high perpendicular magnetocrystalline anisotropy multilayer...
As fabrication technology pushes the dimensions of ferromagnetic structures into the nanoscale, unde...
In this work we study the controlled propagation of magnetic domain walls in ferromagnetic nanowires...
We investigated the transport dynamics of individual magnetic domain walls by employing electrical m...
Domain wall dynamics is the one of the most interesting topics in the field of Spintronics because o...
4th International School and Conference on Spintronics and Quantum Information Technology (Spintech ...
The motion of domain walls in magnetic wires is investigated numerically using the program LLG Micro...
Herein, different concepts for domain wall propagation based on currents and fields that could poten...
In this thesis magnetic domain walls in laterally confined ferromagnetic elements are studied, as we...
Recent studies demonstrate that an individual magnetic domain wall (DW) can be trapped and reproduci...
International audienceThe combined effect of magnetic field and current on domain wall motion is inv...
We study the domain wall motion in a disordered weak ferromagnet, induced by injecting a spin curren...
Magnetic domain walls are proposed as data carriers in future spintronic devices, whose reliability ...
We carry out large-scale micromagnetic simulations that demonstrate that due to topological constrai...
International audienceIn this paper, we use simulations to study current-induced domain wall dynamic...
Current-induced domain wall motion along high perpendicular magnetocrystalline anisotropy multilayer...
As fabrication technology pushes the dimensions of ferromagnetic structures into the nanoscale, unde...
In this work we study the controlled propagation of magnetic domain walls in ferromagnetic nanowires...
We investigated the transport dynamics of individual magnetic domain walls by employing electrical m...
Domain wall dynamics is the one of the most interesting topics in the field of Spintronics because o...
4th International School and Conference on Spintronics and Quantum Information Technology (Spintech ...
The motion of domain walls in magnetic wires is investigated numerically using the program LLG Micro...
Herein, different concepts for domain wall propagation based on currents and fields that could poten...
In this thesis magnetic domain walls in laterally confined ferromagnetic elements are studied, as we...
Recent studies demonstrate that an individual magnetic domain wall (DW) can be trapped and reproduci...
International audienceThe combined effect of magnetic field and current on domain wall motion is inv...
We study the domain wall motion in a disordered weak ferromagnet, induced by injecting a spin curren...
Magnetic domain walls are proposed as data carriers in future spintronic devices, whose reliability ...
We carry out large-scale micromagnetic simulations that demonstrate that due to topological constrai...
International audienceIn this paper, we use simulations to study current-induced domain wall dynamic...
Current-induced domain wall motion along high perpendicular magnetocrystalline anisotropy multilayer...
As fabrication technology pushes the dimensions of ferromagnetic structures into the nanoscale, unde...
In this work we study the controlled propagation of magnetic domain walls in ferromagnetic nanowires...