This paper presents a detailed study of the program/erase (P/E) dynamics under uniform tunneling for nanocrystal (NC) memories. Calculating the potential profile and the tunneling currents across the dielectric barriers, we evaluate NC charging and discharging transients during P/E operations. The calculated P/E windows and times compare well with experimental data for memory cells with different oxide thicknesses. The model accounts for the typical features of threshold voltage (VT) shift as a function of applied gate voltage, and can be used as a valuable tool for optimizing the cell geometry and parameters for maximum performance.
Modeling of tunneling P/E for nanocrystal memories
2005
Abstract
This paper presents a detailed study of the program/erase (P/E) dynamics under uniform tunneling for nanocrystal (NC) memories. Calculating the potential profile and the tunneling currents across the dielectric barriers, we evaluate NC charging and discharging transients during P/E operations. The calculated P/E windows and times compare well with experimental data for memory cells with different oxide thicknesses. The model accounts for the typical features of threshold voltage (VT) shift as a function of applied gate voltage, and can be used as a valuable tool for optimizing the cell geometry and parameters for maximum performance.File in questo prodotto:
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