L. Tsybeskov, L. Montès, G. Grom, R. Krishnan, P. Fauchet, B. White
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Memory devices utilizing resonant tunneling in nanocrystalline silicon superlattices
In this paper, we present a definitive experimental observation of resonant carrier tunneling in nanocrystalline Si-SiO/sub 2/ superlattices, and discuss utilization of our findings in memory devices. The paper gives an example of negative differential conductivity associated with hole tunneling in a 10 period 45 /spl Aring/ Si/15 /spl Aring/ SiO/sub 2/ superlattice, and summarizes the properties of nanocrystalline Si superlattice based memory device prototypes. The device properties, including operating voltage, endurance, retention time and dynamic leakage, are discussed.
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