Modelling of the influence of charges trapped in the oxide on theI(V_g) characteristics of metal–ultra-thin oxide–semiconductor structures

Abstract: This paper deals with the theoretical and experimental influences of the charge trapped in the oxide of metal/ultra-thin oxide/semiconductor structures. It focuses on the two characteristics current-voltage I (V g ) and voltage-charges injected V g (Q inj ) (V g is the voltage applied, Q inj is the injected charge) when the conduction is of the Fowler-Nordheim type. The charge is trapped in the thin oxide after injection of a constant current at high field (>12 MV cm −1 ) from the metal (in accumulation regime… Show more

“…Several studies have been performed to discuss the transmittance and tunneling current in highκ dielectric stack-based MOSFETs by taking into account the effect of charge trapping in the longitudinal motion of electrons [4][5]. The coupling effect between transverse-longitudinal motion represented by an electron velocity in the gate and anisotropic masses have been considered in the calculation of transmittance and tunneling current in the MOS capacitor with charge trapping [6].…”

A Theoretical Study on Electron Tunneling Current in Isotropic High-κ Dielectric Stack-Based MOS Capacitors with Charge Trapping

“…Several studies have been performed to discuss the transmittance and tunneling current in highκ dielectric stack-based MOSFETs by taking into account the effect of charge trapping in the longitudinal motion of electrons [4][5]. The coupling effect between transverse-longitudinal motion represented by an electron velocity in the gate and anisotropic masses have been considered in the calculation of transmittance and tunneling current in the MOS capacitor with charge trapping [6].…”

A Theoretical Study on Electron Tunneling Current in Isotropic High-κ Dielectric Stack-Based MOS Capacitors with Charge Trapping

Transport through the Energy Barriers: Transition Probability

Current tunnelling through MOS devices