Litcius/Paper detail

Surface acoustic waves increase magnetic domain wall velocity

Anil Adhikari, S. Adenwalla

2021AIP Advances21 citationsDOIOpen Access PDF

Abstract

Domain walls in magnetic thin films are being explored for memory applications and the speed at which they move has acquired increasing importance. Magnetic fields and currents have been shown to drive domain walls with speeds exceeding 500 m/s. We investigate another approach to increase domain wall velocities, using high frequency surface acoustic waves to create standing strain waves in a 3 micron wide strip of magnetic film with perpendicular anisotropy. Our measurements, at a resonant frequency of 248.8 MHz, indicate that domain wall velocities increase substantially, even at relatively low applied voltages. Our findings suggest that the strain wave derived effective magnetic field acts as an additional driver for domain wall motion.

Topics & Concepts

Domain wall (magnetism)Magnetic fieldMagnetic domainPerpendicularMaterials scienceAnisotropySurface waveCondensed matter physicsAcoustic waveAcousticsFrequency domainPhysicsOpticsMagnetizationGeometryComputer scienceQuantum mechanicsComputer visionMathematicsMagnetic properties of thin filmsTheoretical and Computational PhysicsCharacterization and Applications of Magnetic Nanoparticles