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Charge trapping in ultrathin hafnium silicate/metal gate stacks

2005; Institute of Electrical and Electronics Engineers; Volume: 26; Issue: 12 Linguagem: Inglês

10.1109/led.2005.859677

1558-0563

P. Srinivasan, N. A. Chowdhury, D. Misra,

Ferroelectric and Negative Capacitance Devices

Charge trapping characteristics of MOCVD HfSi/sub x/O/sub y/ (20% SiO/sub 2/) gate stack of n-MOSFETs during substrate injection have been investigated. Positive constant voltage stress (CVS) and constant current stress (CCS) were applied at the gate of TiN-HfSi/sub x/O/sub y/-SiO/sub 2//p-Si n-MOSFETs having EOT of 2 nm. Significant electron trapping is observed from the positive shift of threshold voltage (/spl Delta/V/sub t/) after stress. Curve fitting of the threshold voltage shift data confirms power law dependence for Hf-silicate gate stacks. Charge pumping measurements for both cases showed significant electron trapping at bulk Hf-silicate while interface trap generation was comparatively insignificant. A turn-around effect is noticed for /spl Delta/V/sub t/ as the stress current and voltage increases under CCS and CVS. Dependence of spatial distribution of charge trapping at shallow traps on stress level in the Hf-silicate film and redistribution of trapped charges during and after removal of stress is possibly responsible for the turn-around effect.