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Degenerate Resistive Switching and Ultrahigh Density Storage in Resistive Memory

We show that, in tantalum oxide resistive memories, activation power provides a multi-level variable for information storage that can be set and read separately from the resistance. These two state variables (resistance and activation power) can be precisely controlled in two steps: (1) the possible activation power states are selected by partially reducing resistance, then (2) a subsequent partial increase in resistance specifies the resistance state and the final activation power state. We show that these states can be precisely written and read electrically, making this approach potentially amenable for ultra-high density memories. We provide a theoretical explanation for information storage and retrieval from activation power and experimentally demonstrate information storage in a third dimension related to the change in activation power with resistance.

preprint2014arXivOpen access
Andrew J. LohnPatrick R. MickelConrad D. JamesMatthew J. Marinella
cond-mat.mes-hallmath.ITInformation Theorycond-mat.mtrl-sciEmerging Technologies
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Andrew J. LohnPatrick R. MickelConrad D. JamesMatthew J. Marinella

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