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A radiation - tolerant, low - power non - volatile memory based on silicon nanocrystal quantum dots.

A radiation - tolerant, low - power non - volatile memory based on silicon nanocrystal quantum dots.

Bell, L. D.; Boer, E.; Ostraat, M.; Brongersma, M. L.; Flagad, R. C.; Atwater, H. A.; deBlauwe, J.; Green, M. L.
URI: http://hdl.handle.net/2014/39583
Date: 2001-02-21
Keywords: non-volatile memory; single electronics; nanocrystals
Publisher: Pasadena, CA : Jet Propulsion Laboratory, National Aeronautics and Space Administration, 2001.
Citation: Forum on Innovative Approaches to Outer Planet Exploration 2001-2020, Houston, Texas, February 21, 2001.

Abstract:

Nanocrystal nonvolatile floating-gate memories are a good candidate for space applications - initial results suggest they are fast, more reliable and consume less power than conventional floating gate memories. In the nanocrystal based NVM device, charge is not stored on a continuous polysilicon layer (so-called floating gate), but instead on a layer of discrete nanocrystals. Charge injection and storage in dense arrays of silicon nanocrystals in Si02 is a critical aspect of the performance of potential nanocrystal flash memory structures. The ultimate goal for this class of devices is few- or single-electron storage in a small number of nanocrystal elements. In addition, the nanocrystal layer fabrication technique should be simple, 8-inch wafer compatible and well controlled.

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