Proton irradiation on Nanocrystals Memories produces peculiar radiation effects on the electrical characteristics of these devices, owing to their thin tunnel oxide and to the presence of nanocrystals replacing the Flash memory conventional floating gate. In this work we show that the data retention capability is compromised only after high fluences and that irradiated devices do not show accelerated degradation during subsequent electrical stresses. The presence of nanocrystals instead of a floating gate reduces also the quantity of charge lost during irradiation, indicating these devices as possible candidates for space and avionic environments
Radiation-Induced Modifications of the Electrical Characteristics of Nanocrystal Memory Cells and Arrays
CESTER, ANDREA;PACCAGNELLA, ALESSANDRO;
2006
Abstract
Proton irradiation on Nanocrystals Memories produces peculiar radiation effects on the electrical characteristics of these devices, owing to their thin tunnel oxide and to the presence of nanocrystals replacing the Flash memory conventional floating gate. In this work we show that the data retention capability is compromised only after high fluences and that irradiated devices do not show accelerated degradation during subsequent electrical stresses. The presence of nanocrystals instead of a floating gate reduces also the quantity of charge lost during irradiation, indicating these devices as possible candidates for space and avionic environmentsPubblicazioni consigliate
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