This work presents a simulation study of a ferroelectric field effect transistor (FeFET), which leverages a metal interlayer to achieve a multilevel operation thanks to the interplay between the ferroelectric polarization and the charge stored in the interlayer. We show that the metal interlayer can effectively stabilize the ferroelectric polarization even for a negligible charge trapping in the dielectric stack and, moreover, enable a multilevel operation even for a uniform ferroelectric polarization.
Modelling and Design of Short Channel Ferroelectric FETs with a Metal Interlayer Easing the Multilevel Operation
Rossi, Chiara
Primo
;Lizzit, DanielSecondo
;Esseni, DavidUltimo
2025-01-01
Abstract
This work presents a simulation study of a ferroelectric field effect transistor (FeFET), which leverages a metal interlayer to achieve a multilevel operation thanks to the interplay between the ferroelectric polarization and the charge stored in the interlayer. We show that the metal interlayer can effectively stabilize the ferroelectric polarization even for a negligible charge trapping in the dielectric stack and, moreover, enable a multilevel operation even for a uniform ferroelectric polarization.File in questo prodotto:
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EDTM2025_OpenAccess_doi.pdf
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