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Picosecond multilevel resistive switching in tantalum oxide thin films

Ulrich Böttger, Moritz von Witzleben, Viktor Havel, Karsten Fleck, Vikas Rana, Rainer Waser, Stephan Menzel

2020Scientific Reports58 citationsDOIOpen Access PDF

Abstract

The increasing demand for high-density data storage leads to an increasing interest in novel memory concepts with high scalability and the opportunity of storing multiple bits in one cell. A promising candidate is the redox-based resistive switch repositing the information in form of different resistance states. For reliable programming, the underlying physical parameters need to be understood. We reveal that the programmable resistance states are linked to internal series resistances and the fundamental nonlinear switching kinetics. The switching kinetics of [Formula: see text]-based cells was investigated in a wide range over 15 orders of magnitude from 10[Formula: see text] s to 250 ps. The capacitive charging time of our device limits the direct observation of the set time below 770 ps, however, we found indication for an intrinsic switching speed of 10 ps at a stimulus of 3 V. On all time scales, multi-bit data storage capabilities were demonstrated. The elucidated link between fundamental material properties and multi-bit data storage paves the way for designing resistive switches for memory and neuromorphic applications.

Topics & Concepts

PicosecondNeuromorphic engineeringResistive random-access memoryMaterials scienceOptoelectronicsSwitching timeResistive touchscreenScalabilityThin filmNon-volatile memoryComputer scienceComputer data storageFast switchingCapacitive sensingMemristorAtomic layer depositionMemory cellElectronic engineeringResponse timeNanotechnologyOxideStack (abstract data type)Nonlinear systemCapacitanceRandom access memoryRangingFlash memorySet (abstract data type)Rise timeElectrical engineeringResistorAdvanced Memory and Neural ComputingNeural Networks and Reservoir ComputingFerroelectric and Negative Capacitance Devices
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