Ultrafast domain wall motion in hexagonal magnetostrictive materials: role of inertial damping, magnetostriction, and dry-friction dissipation
This article investigates the dynamic features of domain walls in a bilayer piezoelectric-
magnetostrictive heterostructure under the influence of piezo-induced strains, inertial …
magnetostrictive heterostructure under the influence of piezo-induced strains, inertial …
Depinning of domain walls in a notched ferromagnetic nanostrip: role of inertial and nonlinear damping effects
In this work, we investigate theoretically the static and kinetic depinning field of a domain
wall in a notched magnetic nanostrip under the generalized framework of the Landau …
wall in a notched magnetic nanostrip under the generalized framework of the Landau …
[HTML][HTML] Mathematical modeling and numerical simulation of domain wall motion in magnetic nanostrips with crystallographic defects
We investigate field and current driven domain wall propagation in magnetic nanostrips in
the framework of the modified Landau–Lifshitz–Gilbert equation including spin-torque …
the framework of the modified Landau–Lifshitz–Gilbert equation including spin-torque …
Analytical solution of the strain-controlled magnetic domain wall motion in bilayer piezoelectric/magnetostrictive nanostructures
G Consolo, G Valenti - Journal of Applied Physics, 2017 - pubs.aip.org
The one-dimensional propagation of magnetic domain walls in an isotropic, linearly elastic,
magnetostrictive material is investigated in the framework of the extended Landau-Lifshitz …
magnetostrictive material is investigated in the framework of the extended Landau-Lifshitz …
Curved domain walls in the ferromagnetic nanostructures with Rashba and nonlinear dissipative effects
This work reveals an analytical investigation of the curved domain wall motion in
ferromagnetic nanostructures in the framework of the extended Landau-Lifshitz-Gilbert …
ferromagnetic nanostructures in the framework of the extended Landau-Lifshitz-Gilbert …
Domain wall motion in multiferroic nanostructures under the influence of spin-orbit torque and nonlinear dissipative effect
This article analytically investigates the one-dimensional motion of magnetic domain walls
along a thin magnetostrictive nanostrip in a trilayer stack. This study is done under the …
along a thin magnetostrictive nanostrip in a trilayer stack. This study is done under the …
Dynamics of transverse domain wall in bilayer ferromagnetic-heavy metal nanostructures: Interplay of spin-orbit torque, dry-friction dissipation, and the interfacial …
This work deals with the static and dynamic characteristics of the transverse Bloch domain
wall within a bilayer nanostructure comprising a ferromagnetic layer and a non-magnetic …
wall within a bilayer nanostructure comprising a ferromagnetic layer and a non-magnetic …
Dynamics of curved domain walls in hard ferromagnets with nonlinear dissipative and inertial effects
This article investigates the field-driven motion of curved domain walls in ferromagnetic
nanostructures under the framework of modified Landau–Lifshitz–Gilbert equation with …
nanostructures under the framework of modified Landau–Lifshitz–Gilbert equation with …
Traveling wave solutions of the one-dimensional extended Landau-Lifshitz-Gilbert equation with nonlinear dry and viscous dissipations
G Consolo, G Valenti - Acta applicandae mathematicae, 2012 - Springer
The one-dimensional propagation of magnetic domain walls in ferromagnetic nanostrips is
investigated in the framework of the extended Landau-Lifshitz-Gilbert equation which …
investigated in the framework of the extended Landau-Lifshitz-Gilbert equation which …
On dynamics of current-induced static wall profiles in ferromagnetic nanowires governed by the Rashba field
This article deals with the analytical study of propagation of static wall profiles in
ferromagnetic nanowires under the effect of spin–orbit Rashba field. We consider the …
ferromagnetic nanowires under the effect of spin–orbit Rashba field. We consider the …