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Schottky barrier induced asymmetry in the negative differential resistance response of Nb/NbOx/Pt cross-point devices

The negative differential resistance (NDR) response of Nb/NbOx/Pt cross-point devices is shown to have a polarity dependence due to the effect of the metal/oxide Schottky barriers on the contact resistance. Three distinct responses are observed under opposite polarity testing: bipolar S-type NDR, bipolar snap-back NDR, and combined S-type and snap-back NDR, depending on the stoichiometry of the oxide film and device area. In-situ thermoreflectance imaging is used to show that these NDR responses are associated with strong current localisation, thereby justifying the use of a previously developed two-zone, core shell thermal model of the device. The observed polarity dependent NDR responses, and their dependence on stoichiometry and area are then explained by extending this model to include the effect of the polarity dependent contact resistance. This study provides an improved understanding of the NDR response of metal/oxide/metal structures and informs the engineering of devices for neuromorphic computing and non-volatile memory applications.

preprint2019arXivOpen access
Shimul Kanti NathSanjoy Kumar NandiAssaad El-HelouXinjun LiuShuai LiThomas RatcliffPeter E RaadRobert G Elliman
physics.app-ph
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Open access8 authors1 topic
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Shimul Kanti NathSanjoy Kumar NandiAssaad El-HelouXinjun LiuShuai LiThomas RatcliffPeter E RaadRobert G Elliman

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