Add to ORKGSpatial magnetization distribution of cobalt layer is studied by means of three-dimensional micromagnetic simulations in the range of cobalt thickness d from 21 to 249 nm. In this range, a spin-reorientation phase transition occurs, while the cobalt thickness increases, from a state with in-plane magnetization, to a state with out-of-plane components of magnetization. An infinite cobalt layer is modelled by the 750 nm×750 nm×d structure consisting of cubic cells of size of 3 nm and the periodic boundary conditions. For larger thicknesses, a labyrinth, partially closed, stripe structure has been found. DOI: 10.12693/APhysPolA.127.52
We used atomic force microscopy to investigate the magnetic domain configurations in 65-nm-thick cob...
It is demonstrated that the magnetic diffraction pattern of the isotropic disordered maze pattern is...
We present a magnetic force microscopy (MFM) analysis of arrays of submicron-scale Co dots fabricate...
Abweichender Titel nach Übersetzung der Verfasserin/des VerfassersThis work deals with the formation...
In this paper the magnetization reversal process of Co/Ni/Co trilayers was studied using finite elem...
The magnetization states of 20-nm-thick rectangular Co thin-film elements are studied with micromagn...
Using numerical micromagnetics we have studied the ground state magnetization distribution of square...
C. Chappert J. Ferré J. Miltat F. Gautier F. Rousseaux H. van den BergIn the first part of this doct...
We report systematic micromagnetic investigation of formation of magnetic domains in perpendicularly...
Micromagnetic finite element calculations using a magnetic vector potential to treat long-range dipo...
International audienceWe report on a wide variety of magnetic states in Co/Cu multilayered nanocylin...
The magnetization reversal of Co-G with perpendicular anisotropy is studied by anomalous Hall effect...
We have analyzed the structural evolution of Co(t(Co))/Cu(4t(Co)) multilayers when t(Co) ranges from...
The hybrid Bloch-Neel domain wall in iron film has been investigated using three-dimensional microma...
X-ray diffraction and magnetic force microscopy techniques were used to investigate the structural a...
We used atomic force microscopy to investigate the magnetic domain configurations in 65-nm-thick cob...
It is demonstrated that the magnetic diffraction pattern of the isotropic disordered maze pattern is...
We present a magnetic force microscopy (MFM) analysis of arrays of submicron-scale Co dots fabricate...
Abweichender Titel nach Übersetzung der Verfasserin/des VerfassersThis work deals with the formation...
In this paper the magnetization reversal process of Co/Ni/Co trilayers was studied using finite elem...
The magnetization states of 20-nm-thick rectangular Co thin-film elements are studied with micromagn...
Using numerical micromagnetics we have studied the ground state magnetization distribution of square...
C. Chappert J. Ferré J. Miltat F. Gautier F. Rousseaux H. van den BergIn the first part of this doct...
We report systematic micromagnetic investigation of formation of magnetic domains in perpendicularly...
Micromagnetic finite element calculations using a magnetic vector potential to treat long-range dipo...
International audienceWe report on a wide variety of magnetic states in Co/Cu multilayered nanocylin...
The magnetization reversal of Co-G with perpendicular anisotropy is studied by anomalous Hall effect...
We have analyzed the structural evolution of Co(t(Co))/Cu(4t(Co)) multilayers when t(Co) ranges from...
The hybrid Bloch-Neel domain wall in iron film has been investigated using three-dimensional microma...
X-ray diffraction and magnetic force microscopy techniques were used to investigate the structural a...
We used atomic force microscopy to investigate the magnetic domain configurations in 65-nm-thick cob...
It is demonstrated that the magnetic diffraction pattern of the isotropic disordered maze pattern is...
We present a magnetic force microscopy (MFM) analysis of arrays of submicron-scale Co dots fabricate...