Abstract
A detailed understanding of quantization conductance (QC), the correlation with resistive switching phenomena and controlled manipulation of quantized states is crucial for realizing atomic-scale multilevel memory elements. Here, we demonstrate highly stable and reproducible quantized conductance states (QC-states) in Al/niobium oxide/Pt resistive switching devices. Three levels of control over the QC-states, required for multilevel quantized state memories, like, switching ON to different quantized states, switching OFF from quantized states, and controlled inter-state switching among one QC state to another has been demonstrated by imposing limiting conditions of stop-voltage and current compliance. The well-defined multiple QC states along with a working principle for switching among various states show promise for implementation of multilevel memory devices.
Highlights
A detailed understanding of quantization conductance (QC), the correlation with resistive switching phenomena and controlled manipulation of quantized states is crucial for realizing atomic-scale multilevel memory elements
Rules for controlled switching are evolved with stop-voltage and current compliance limits during
The working principles demonstrated in this work, to achieve QC-states and to induce inter-QC-state switching, is a crucial step towards realization of multilevel memory devices
Summary
A detailed understanding of quantization conductance (QC), the correlation with resistive switching phenomena and controlled manipulation of quantized states is crucial for realizing atomic-scale multilevel memory elements. Several kinds of control over stable QC-states in a resistive switching device are required to achieve multilevel quantized state memories. The conditions to achieve different quantized states either with current compliance[40,41] or with stop voltage[37,40] have been reported.
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