Litcius/Paper detail

Resistive switching localization by selective focused ion beam irradiation

Nareg Ghazikhanian, Javier del Valle, Pavel Salev, Ralph El Hage, Yoav Kalcheim, Coline Adda, Iván K. Schuller

2023Applied Physics Letters18 citationsDOI

Abstract

Materials displaying resistive switching have emerged as promising candidates for implementation as components for neuromorphic computing. Under an applied electric field, certain resistive switching materials undergo an insulator-to-metal transition through the formation of a percolating filament, resulting in large resistance changes. The location and shape of these filaments are strongly influenced by hard-to-control parameters, such as grain boundaries or intrinsic defects, making the switching process susceptible to cycle-to-cycle and device-to-device variation. Using focused Ga+ ion beam irradiation, we selectively engineer defects in VO2 and V2O3 thin films as a case study to control filament formation. Using defect pre-patterning, we can control the position and shape of metallic filaments and reduce the switching power significantly. A greater than three orders of magnitude reduction of switching power was observed in V2O3, and a less than one order of magnitude reduction was observed in VO2. These experiments indicate that selective ion irradiation could be applied to a variety of materials exhibiting resistive switching and could serve as a useful tool for designing scalable, energy efficient circuits for neuromorphic computing.

Topics & Concepts

Neuromorphic engineeringMaterials scienceFocused ion beamProtein filamentResistive touchscreenOptoelectronicsIrradiationIon beamNanotechnologyBeam (structure)IonComputer scienceOpticsComposite materialChemistryPhysicsMachine learningOrganic chemistryComputer visionArtificial neural networkNuclear physicsAdvanced Memory and Neural ComputingTransition Metal Oxide NanomaterialsFerroelectric and Negative Capacitance Devices