A. Padovani, L. Larcher, S. Verma, P. Pavan, P. Majhi, P. Kapur, K. Parat, G. Bersuker, K. Saraswat
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Statistical Modeling of Leakage Currents Through SiO2/High-κ Dielectrics Stacks for Non-Volatile Memory Applications
We present here a statistical Monte Carlo (MC) simulator modeling leakage currents across SiO2/high-kappa dielectric stacks. We show that simulations accurately reproduce experimental currents measured at various temperatures on capacitors with different high-k dielectric stacks. We exploit statistical simulations to investigate the impact of high-kappapsilas traps on leakage current distribution for flash memory applications. We demonstrate that the high defectiveness typical of high-k materials strongly reduces the potential improvement due to the introduction of band-gap engineered high-kappa tunnel dielectric stacks. In this regard, the simulator is a useful tool to optimize high-kappa tunnel stacks and to improve technology reliability issues related to flash memory applications.
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