论文信息 - Polarity-dependent tunneling current and oxide breakdown in dual-gate CMOSFETs

Polarity-dependent tunneling current and oxide breakdown in dual-gate CMOSFETs

The gate tunneling leakage current in dual-gate CMOSFETs exhibits strong polarity dependence when measured in inversion, although it exhibits practically no polarity dependence when measured in accumulation. Specifically, p/sup +/-gate pMOSFET shows substantially lower tunneling current than n/sup +/-gate nMOSFET when measured in inversion. This polarity dependence arises from the difference in the supply of tunneling electrons. The polarity dependent tunneling current has a significant impact on oxide reliability measurements. For example, it gives rise to a higher T/sub bd/ value for p/sup +//pMOSFET as compared to that for n/sup +//nMOSFET when both are biased to inversion. Rationaless are given as to why T/sub bd/ is a better gauge than Q/sub bd/ for reliability assessment, and why nMOSFET is more prone to oxide breakdown than pMOSFET under normal operating conditions.

[1] Chenming Hu,et al. Ultra-thin silicon dioxide leakage current and scaling limit , 1992, 1992 Symposium on VLSI Technology Digest of Technical Papers.

[2] Y. Hokari,et al. Stress voltage polarity dependence of thermally grown thin gate oxide wearout , 1988 .

[3] K.C. Saraswat,et al. SiO/sub 2/ degradation with charge injection polarity , 1993, IEEE Electron Device Letters.

[4] C. Hu,et al. Hole injection SiO/sub 2/ breakdown model for very low voltage lifetime extrapolation , 1994 .

[5] Y. Taur,et al. Quantum-mechanical modeling of electron tunneling current from the inversion layer of ultra-thin-oxide nMOSFET's , 1997, IEEE Electron Device Letters.

[6] M. Kitakata,et al. The impact of nitrogen profile engineering on ultrathin nitrided oxide films for dual-gate CMOS ULSI , 1995, Proceedings of International Electron Devices Meeting.

[7] D. Wristers,et al. Polarity dependence of dielectric breakdown in scaled SiO/sub 2/ , 1994, Proceedings of 1994 IEEE International Electron Devices Meeting.