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3D Interconnected Magnetic Nanowire Networks as Potential Integrated Multistate Memristors

Dhritiman Bhattacharya, Zhijie Chen, Christopher Jensen, Chen Liu, Edward C. Burks, Dustin A. Gilbert, Xixiang Zhang, Gen Yin, Kai Liu

2022Nano Letters24 citationsDOIOpen Access PDF

Abstract

Interconnected magnetic nanowire (NW) networks offer a promising platform for three-dimensional (3D) information storage and integrated neuromorphic computing. Here we report discrete propagation of magnetic states in interconnected Co nanowire networks driven by magnetic field and current, manifested in distinct magnetoresistance (MR) features. In these networks, when only a few interconnected NWs were measured, multiple MR kinks and local minima were observed, including a significant minimum at a positive field during the descending field sweep. Micromagnetic simulations showed that this unusual feature was due to domain wall (DW) pinning at the NW intersections, which was confirmed by off-axis electron holography imaging. In a complex network with many intersections, sequential switching of nanowire sections separated by interconnects was observed, along with stochastic characteristics. The pinning/depinning of the DWs can be further controlled by the driving current density. These results illustrate the promise of such interconnected networks as integrated multistate memristors.

Topics & Concepts

NanowireNeuromorphic engineeringMemristorMaxima and minimaMagnetoresistanceMaterials scienceMagnetic fieldMicromagneticsCondensed matter physicsElectron holographyDomain wall (magnetism)Field (mathematics)NanotechnologyArtificial neural networkComputer sciencePhysicsElectronic engineeringMagnetizationEngineeringTransmission electron microscopyMathematicsArtificial intelligenceQuantum mechanicsMathematical analysisPure mathematicsAdvanced Memory and Neural ComputingFerroelectric and Negative Capacitance DevicesMagnetic properties of thin films