Add to ORKGThe present work studies the effects of inducing a strain gradient on micron-sized Galfenol and nickel devices containing vortex cores by means of a piezoelectric element. Micromagnetic simulations show that the strain induced anisotropy gradient causes vortex core translation along the direction of the gradient, which is key to efficient excitation of the core dynamics. The effect of the strain gradient symmetry on the displacement of the core is investigated and the experimental implementation of the strain gradient is also discussed. For the latter, two approaches are considered. The first is to make use of the ferroelastic multi-domain state of a ferroelectric substrate. The second is based on tailoring a gradient in the strain by patte...
Co films and micron sized disks were grown on top of piezoelectric PMN-PT(011) and Cu/PMNPT(001) sub...
We investigate different approaches towards a nonvolatile switching of the remanent magnetization in...
Strain-mediated multiferroic materials have high energy-efficiency when used control magnetism using...
The present work studies the effects of inducing a strain gradient on micron-sized Galfenol and nick...
The dynamics of magnetic vortex cores is of great interest because the gyrotropic mode has applicati...
The dynamics of magnetic vortex cores is of great interest because the gyrotropic mode has applicati...
Controlling magnetism on the nanoscale has attracted considerable research interest for the high pot...
In this work, we propose and evaluate an inexpensive and CMOS-compatible method to locally apply str...
Abstract Magnetic vortex cores in polycrystalline Ni discs underwent non-volatile dis...
International audienceThe control of magnetic order in nanoscale devices underpins many proposals fo...
Understanding strain gradient phenomena is of paramount importance in diverse areas of condensed mat...
In this work, we experimentally demonstrate deterministic electrically driven, strain-mediated domai...
[EN] Micromagnetic simulations are used to investigate the motion of magnetic skyrmions in an in-pla...
In this work, voltage control of magnetism in nanoscale artificial multiferroic structures was demon...
In spintronics devices, the manipulation of magnetisation in magnetic films and spin valves can play...
Co films and micron sized disks were grown on top of piezoelectric PMN-PT(011) and Cu/PMNPT(001) sub...
We investigate different approaches towards a nonvolatile switching of the remanent magnetization in...
Strain-mediated multiferroic materials have high energy-efficiency when used control magnetism using...
The present work studies the effects of inducing a strain gradient on micron-sized Galfenol and nick...
The dynamics of magnetic vortex cores is of great interest because the gyrotropic mode has applicati...
The dynamics of magnetic vortex cores is of great interest because the gyrotropic mode has applicati...
Controlling magnetism on the nanoscale has attracted considerable research interest for the high pot...
In this work, we propose and evaluate an inexpensive and CMOS-compatible method to locally apply str...
Abstract Magnetic vortex cores in polycrystalline Ni discs underwent non-volatile dis...
International audienceThe control of magnetic order in nanoscale devices underpins many proposals fo...
Understanding strain gradient phenomena is of paramount importance in diverse areas of condensed mat...
In this work, we experimentally demonstrate deterministic electrically driven, strain-mediated domai...
[EN] Micromagnetic simulations are used to investigate the motion of magnetic skyrmions in an in-pla...
In this work, voltage control of magnetism in nanoscale artificial multiferroic structures was demon...
In spintronics devices, the manipulation of magnetisation in magnetic films and spin valves can play...
Co films and micron sized disks were grown on top of piezoelectric PMN-PT(011) and Cu/PMNPT(001) sub...
We investigate different approaches towards a nonvolatile switching of the remanent magnetization in...
Strain-mediated multiferroic materials have high energy-efficiency when used control magnetism using...