Abstract
Oxide-based resistive switching devices have tremendous potential in next-generation nonvolatile memory and neuromorphic applications. Here, the emergence of quantized conductance is investigated in resistive switching devices based on Ta 2 O 5 or HfO 2 . By applying sweeping voltages with different current compliances or using consecutive voltage pulses, quantized conductance states including integer and half integer multiples of quantum conductance (G 0 ) were observed, suggesting well-controlled formation of atomic point contacts. Compared with Pt/Ta/Ta 2 O 5 /Pt devices, a larger number of quantized conductance states were obtained in the Pt/Ta/HfO 2 /Pt devices. Such quantized conductance states are inherently discrete and multilevel, which could be promising for applications as multilevel nonvolatile memory and artificial synapses in hardware neural networks.
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