6533b857fe1ef96bd12b50db

RESEARCH PRODUCT

Staggered magnetic nanowire devices for effective domain-wall pinning in racetrack memory

Mathias KläuiS. N. PiramanayagamB. BorieM. Al BahriTianli JinRachid Sbiaa

subject

PermalloyPhysicsCondensed matter physicsMagnetism530 PhysicsMagnetismGeneral Physics and Astronomy:Science::Physics [DRNTU]02 engineering and technologyMagnetic nanowires021001 nanoscience & nanotechnology530 Physik01 natural sciencesImaging phantomEffective domainPosition (vector)0103 physical sciencesRacetrack memoryNanophysics010306 general physics0210 nano-technologyAnisotropy

description

Domain-wall memory devices, in which the information is stored in nanowires, are expected to replace hard disk drives. A problem that remains to be solved in domain-wall memory is to pin the domain walls in a controllable manner at the nanometer scale using simple fabrication. We demonstrate the possibility to stabilize domain walls by making staggered nanowires. Controllable domain-wall movement is exhibited in permalloy nanowires using magnetic fields where the pinning field is about 10 mT. The pinning field and stability of the domain walls can be increased by adjusting the offset dimensions of the staggered nanowires. Domain-wall velocities of about 200 m/s are computed for the experimentally used permalloy nanowires. Domain-wall velocities are found to be independent of pinning strength and stability, providing a way to tune the pinning without compromising domain-wall velocities. Published version

yearjournalcountryeditionlanguage
2019-02-08
https://dx.doi.org/10.25358/openscience-193