0000000000937102

AUTHOR

R. P. Campion

showing 4 related works from this author

Terahertz electrical writing speed in an antiferromagnetic memory

2018

The speed of writing of state-of-the-art ferromagnetic memories is physically limited by an intrinsic gigahertz threshold. Recently, realization of memory devices based on antiferromagnets, in which spin directions periodically alternate from one atomic lattice site to the next has moved research in an alternative direction. We experimentally demonstrate at room temperature that the speed of reversible electrical writing in a memory device can be scaled up to terahertz using an antiferromagnet. A current-induced spin-torque mechanism is responsible for the switching in our memory devices throughout the 12-order-of-magnitude range of writing speeds from hertz to terahertz. Our work opens the…

Terahertz radiationPhysics::Optics02 engineering and technologyHardware_PERFORMANCEANDRELIABILITY01 natural sciences530Computer Science::Hardware ArchitectureHertz0103 physical sciencesHardware_INTEGRATEDCIRCUITSAntiferromagnetismAtomic lattice010306 general physicsResearch ArticlesSpin-½PhysicsMultidisciplinarybusiness.industrySciAdv r-articles021001 nanoscience & nanotechnologyelectrical writingFerromagnetismApplied Sciences and Engineeringwriting speedComputer ScienceOptoelectronicsCondensed Matter::Strongly Correlated Electronsantiferromagnetic memory0210 nano-technologybusinessRealization (systems)Research ArticleScience Advances
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Elektrónová a pásová štruktúra CuMnAs študovaná optickou a fotoemissinou spektroskopiou

2017

Tetragonal phase of CuMnAs progressively appears as one of the key materials for antiferromagnetic spintronics due to efficient current-induced spin-orbit torques whose existence can be directly inferred from crystal symmetry. Theoretical understanding of spintronic phenomena in this material, however, relies on the detailed knowledge of electronic structure (band structure and corresponding wave functions) which has so far been tested only to a limited extent. We show that AC permittivity (obtained from ellipsometry) and UV photoelectron spectra agree with density functional calculations. Together with the x-ray diffraction and precession electron diffraction tomography, our analysis confi…

DiffractionCondensed Matter - Materials ScienceMaterials scienceSpintronicsCondensed matter physicsPhotoemission spectroscopyMaterials Science (cond-mat.mtrl-sci)FOS: Physical sciencesspintronics DFT photoemission optical properties CuMnAs02 engineering and technologyCrystal structureElectronic structure021001 nanoscience & nanotechnology01 natural sciences3. Good healthTetragonal crystal systemCondensed Matter::Materials ScienceSpintronika DFT fotoemissia optické vlastnosti CuMnAs0103 physical sciencesPrecession electron diffraction010306 general physics0210 nano-technologyElectronic band structure
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An antidamping spin–orbit torque originating from the Berry curvature

2014

Magnetization switching at the interface between ferromagnetic and paramagnetic metals, controlled by current-induced torques, could be exploited in magnetic memory technologies. Compelling questions arise regarding the role played in the switching by the spin Hall effect in the paramagnet and by the spin-orbit torque originating from the broken inversion symmetry at the interface. Of particular importance are the antidamping components of these current-induced torques acting against the equilibrium-restoring Gilbert damping of the magnetization dynamics. Here, we report the observation of an antidamping spin-orbit torque that stems from the Berry curvature, in analogy to the origin of the …

PhysicsMagnetization dynamicsCondensed matter physicsmedia_common.quotation_subjectPoint reflectionBiomedical EngineeringBioengineeringCondensed Matter::Mesoscopic Systems and Quantum Hall EffectCondensed Matter PhysicsAsymmetryAtomic and Molecular Physics and OpticsCondensed Matter::Materials ScienceParamagnetismMagnetizationFerromagnetismSpin Hall effectCondensed Matter::Strongly Correlated ElectronsGeneral Materials ScienceBerry connection and curvatureElectrical and Electronic Engineeringmedia_commonNature Nanotechnology
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THz electrical writing speed in an antiferromagnetic memory

2017

The speed of writing of state-of-the-art ferromagnetic memories is physically limited by an intrinsic GHz threshold. Recently, an alternative research direction has been initiated by realizing memory devices based on antiferromagnets in which spin directions periodically alternate from one atomic lattice site to the next. In our work we experimentally demonstrate at room temperature that the speed of reversible electrical writing in a memory device can be scaled up to THz using an antiferromagnet. Efficient current-induced spin-torque mechanism is responsible for the switching in our memory devices throughout the twelve orders of magnitude range of writing speeds from Hz to THz. Our work op…

FOS: Physical sciencesPhysics - Applied PhysicsApplied Physics (physics.app-ph)
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