M. Sato, C. Tamura, K. Yamabe, K. Shiraishi, K. Yamada, R. Hasunuma, T. Aoyama, Y. Nara, Y. Ohji
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Fabrication process controlled pre-existing and charge - discharge effect of hole traps in NBTI of high-k / metal gate pMOSFET
This study aims to investigate the application of a technique to separate bulk hole trap effects from interface state degradation in NBTI to understand hole traps behavior including MOSFET fabrication process dependence. A gate last process is used to fabricate the pMOSFETs with HfSiON/TiN gate stacks. Results show that RTA is an effective method for reducing pre-existing hole traps, while nitridation is effective in the thermally de-activation of hole traps. The hole traps, which are thought to be due to the negatively charged interstitial oxygen, increase logarithmically with hole injection.
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