Litcius/Paper detail

Programmable Spin–Orbit Torque Multistate Memory and Spin Logic Cell

Yibo Fan, Xiang Han, Xiaonan Zhao, Yanan Dong, Yanxue Chen, Lihui Bai, Shishen Yan, Yufeng Tian

2022ACS Nano37 citationsDOI

Abstract

Controllable spin-orbit torque based nonvolatile memory is highly desired for constructing energy efficient reconfigurable logic-in-memory computing suitable for emerging data-intensive applications. Here, we report our exploration of the IrMn/Co/Ru/CoPt/CoO heterojunction as a potential candidate for applications in both multistate memory and programmable spin logic. The studied heterojunction can be programmed into four different magnetic configurations at will by tuning both the in-plane exchange bias at the interface of IrMn and Co layers and the out-of-plane exchange bias at the interface of CoPt and CoO layers. Moreover, on the basis of the controllable exchange bias effect, 10 states of nonvolatile memory and multiple logic-in-memory functions have been demonstrated. Our findings indicate that IrMn/Co/Ru/CoPt/CoO multilayered structures can be used as a building block for next-generation logic-in-memory and multifunctional multidimensional spintronic devices.

Topics & Concepts

Exchange biasHeterojunctionSpintronicsNon-volatile memoryMaterials scienceInterface (matter)Magnetoresistive random-access memoryOptoelectronicsSpin (aerodynamics)Computer scienceProgrammable logic deviceNanotechnologyComputer hardwareCondensed matter physicsPhysicsMagnetic anisotropyRandom access memoryFerromagnetismMagnetizationCapillary numberMagnetic fieldCapillary actionQuantum mechanicsComposite materialThermodynamicsAdvanced Memory and Neural ComputingFerroelectric and Negative Capacitance DevicesMagnetic properties of thin films