IEEE Journal of the Electron Devices Society (Jan 2024)

Discrete-Trap Effects on 3-D NAND Variability – Part I: Threshold Voltage

  • Gerardo Malavena,
  • Salvatore M. Amoroso,
  • Andrew R. Brown,
  • Plamen Asenov,
  • Xi-Wei Lin,
  • Victor Moroz,
  • Mattia Giulianini,
  • David Refaldi,
  • Christian Monzio Compagnoni,
  • Alessandro S. Spinelli

DOI
https://doi.org/10.1109/JEDS.2024.3447149
Journal volume & issue
Vol. 12
pp. 651 – 657

Abstract

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In this two-part article we discuss the difference between a continuous and a discrete approach to trap modeling in the simulation of 3-D NAND Flash memories with polysilicon channel. In Part I we focus on threshold voltage $({\mathrm { V}}_{\mathrm { T}})$ fluctuations induced by traps and show that lower values for the average and rms ${\mathrm { V}}_{\mathrm { T}}$ arise when the discrete nature of traps is accounted for. We explain such differences in terms of a stronger percolation that leads to a lower number of filled traps in the discrete-trap case, and investigate such differences as a function of cell parameters and temperature. Finally, we compare the two approaches showing that a continuous trap model cannot reproduce the correct dependences resulting from a discrete treatment.

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