Add to ORKGThe precessional switching process in magnetic recording thin-films is investigated by means of micromagnetic simulations. The uniform mode theory is used to predict the right time instant to switch off the field and the time tolerance which still allows successful switching. This analysis is performed for different values of applied field and anisotropy constant. We verified that the uniform mode theory provides accurate information about the tolerance on the switching time for moderately soft materials
A theory for calculating the threshold precession angles required to parametrically excite spin wave...
We have numerically solved the Landau-Lifshitz-Gilbert (LLG) equation in its standard and inertial f...
We have numerically solved the Landau-Lifshitz-Gilbert (LLG) equation in its standard and inertial f...
Finite element micromagnetic simulations are performed. The time evolution of the mag-netization is ...
Abstract—Finite element based micromagnetics is applied to study thermally assisted switching of thi...
We study analytically the precessional switching of the magnetization of a thin macrospin. We analyz...
In this paper, we study the magnetic switching of sub-micron sized ferromagnetic thin films under th...
The precessional switching process of a magnetic nanoparticle subject to external field pulses appli...
There has always been an increasing demand for high density data storage. However, the increased are...
This thesis is intended to provide a theoretical analysis of magnetization dynamics in nanometer sca...
The switching process of a submicron-scale ferromagnetic thin-film is numerically computed and analy...
The switching process of a submicron-scale ferromagnetic thin-film is numerically computed and analy...
The switching process of a submicron-scale ferromagnetic thin-film is numerically computed and analy...
This paper presents a theoretical analysis of the effect of the "switching criterion", the level at ...
A theory for calculating the threshold precession angles required to parametrically excite spin wave...
A theory for calculating the threshold precession angles required to parametrically excite spin wave...
We have numerically solved the Landau-Lifshitz-Gilbert (LLG) equation in its standard and inertial f...
We have numerically solved the Landau-Lifshitz-Gilbert (LLG) equation in its standard and inertial f...
Finite element micromagnetic simulations are performed. The time evolution of the mag-netization is ...
Abstract—Finite element based micromagnetics is applied to study thermally assisted switching of thi...
We study analytically the precessional switching of the magnetization of a thin macrospin. We analyz...
In this paper, we study the magnetic switching of sub-micron sized ferromagnetic thin films under th...
The precessional switching process of a magnetic nanoparticle subject to external field pulses appli...
There has always been an increasing demand for high density data storage. However, the increased are...
This thesis is intended to provide a theoretical analysis of magnetization dynamics in nanometer sca...
The switching process of a submicron-scale ferromagnetic thin-film is numerically computed and analy...
The switching process of a submicron-scale ferromagnetic thin-film is numerically computed and analy...
The switching process of a submicron-scale ferromagnetic thin-film is numerically computed and analy...
This paper presents a theoretical analysis of the effect of the "switching criterion", the level at ...
A theory for calculating the threshold precession angles required to parametrically excite spin wave...
A theory for calculating the threshold precession angles required to parametrically excite spin wave...
We have numerically solved the Landau-Lifshitz-Gilbert (LLG) equation in its standard and inertial f...
We have numerically solved the Landau-Lifshitz-Gilbert (LLG) equation in its standard and inertial f...