Direct tunneling gate leakage current in transistors with ultrathin silicon nitride gate dielectric

Abstract

We present a study on the characterization and modeling of direct tunneling gate leakage current in both N- and P-type MOSFETs with ultrathin silicon nitride (Si/sub 3/N/sub 4/) gate dielectric formed by the jet-vapor deposition (JVD) technique. The tunneling mechanisms in the N- and PMOSFETs were clarified. The electron and hole tunneling masses and barrier potentials for the different tunneling mechanisms mere extracted from measured data using a new semi-empirical model. This model was used to project the scaling limits of the JVD Si/sub 3/N/sub 4/ gate dielectric based on the supply voltages for the various technology nodes and the maximum tolerable direct tunneling gate current for high-performance and low-power applications.

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