Impact of Gate Stack Thermal Budget on NBTI Reliability in Gate-All-Around Nanosheet P-type Devices

2023 IEEE International Reliability Physics Symposium (IRPS) Pub Date : 2023-03-01 DOI:10.1109/IRPS48203.2023.10117828
Huimei Zhou, Miaomiao Wang, N. Loubet, A. Gaul, Y. Sulehria
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Abstract

NBTI impact from gate stack thermal budget in Gate-All-Around Nanosheet (GAA NS) architecture is presented in this work. Varying effects of post high-k deposition anneal (PDA), spike-anneal (SA), and laser annealing (LSA) are studied in terms of the NBTI-induced threshold voltage shifts. It is observed that the NBTI, gate leakage, and mobility are significantly modulated by interfacial layer (IL) formation and Nitrogen (N) concentration from varying annealing and thermal budget. Optimized thermal process is identified to improve NBTI reliability without mobility and gate leakage degradation.
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栅极堆叠热收支对栅极全能纳米片p型器件NBTI可靠性的影响
本文研究了栅极-全能纳米片(gaans)结构中栅极堆叠热收支对NBTI的影响。研究了高k沉积退火(PDA)、尖峰退火(SA)和激光退火(LSA)对nbti诱导的阈值电压偏移的影响。观察到NBTI、栅漏和迁移率受界面层(IL)形成和不同退火和热收支引起的氮(N)浓度的显著调节。确定了优化的热过程,以提高NBTI的可靠性,而不降低迁移率和栅极泄漏。
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2023 IEEE International Reliability Physics Symposium (IRPS)
2023 IEEE International Reliability Physics Symposium (IRPS)
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