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Non-volatile memory device based on mobile protons in SiO2 thin films

K. Vanheusden, W. L. Warren, R. A. B. Devine, D. M. Fleetwood, J. R. Schwank, M. R. Shaneyfelt, P. S. Winokur and Z. J. Lemnios
Additional contact information
K. Vanheusden: Sandia National Laboratories
W. L. Warren: Sandia National Laboratories
R. A. B. Devine: France Telecom/CNET
D. M. Fleetwood: Sandia National Laboratories
J. R. Schwank: Sandia National Laboratories
M. R. Shaneyfelt: Sandia National Laboratories
P. S. Winokur: Sandia National Laboratories
Z. J. Lemnios: Defense Advanced Research Projects Agency

Nature, 1997, vol. 386, issue 6625, 587-589

Abstract: Abstract The silicon/silicon-dioxide system provides the cornerstone of integrated-circuit technology1. Since the introduction of devices based on this system, the (largely deleterious) effects on device operation of mobile and trapped charges in the oxide layer have been studied in great detail. Contamination by alkali ions, for example, was a major concern in the early days of metal-oxide-semiconductor device fabrication2. But not all SiO2 impurities are undesirable: the addition of hydrogen, for example, has the beneficial property of rendering charge traps inactive1. Here we show that mobile H+ ions introduced by annealing into the buried oxide layer of Si/SiO2/Si structures, rather than being detrimental, can form the basis of a non-volatile memory device. These mobile protons are confined to the oxide layer, and their space-charge distribution can be controlled and rapidly rearranged at room temperature by an applied electric field. Memory devices based on this effect are expected to be competitive with current state-of-the-art Si-based memories, with the additional advantage of simplicity—only a few standard processing steps are required.

Date: 1997
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DOI: 10.1038/386587a0

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