Fundamental understanding and optimization of PBTI in nFETs with SiO2/HfO2 gate stack

2006 International Electron Devices Meeting Pub Date : 2006-12-01 DOI:10.1109/IEDM.2006.346773
E. Cartier, B. Linder, V. Narayanan, V. Paruchuri
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引用次数: 82

Abstract

An electrical measurement technique is introduced which provides direct information on the energy distribution of trapped electrons within SiO2/HfO2 dual layer gate stacks of fully processed high-k/metal gate nFETs. Using this electron spectroscopic technique, it is shown that electron trap levels in HfO2 are located adjacent to the conduction band of Si with trap energies which agree with recently calculated defect levels induced by oxygen vacancy defects in HfO2. A strong sensitivity of these shallow defects to the gate stack processing conditions is observed and it is found that the Positive Bias Temperature Instability (PBTI) can be reduced by suppressing oxygen vacancy formation in the HfO2 layer
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sio_2 /HfO2栅极堆nfet中PBTI的基本认识与优化
介绍了一种电测量技术,该技术提供了全加工高k/金属栅极非场效应管SiO2/HfO2双层栅极堆中捕获电子能量分布的直接信息。利用这一电子能谱技术表明,HfO2中的电子阱能级位于Si的导带附近,其阱能与最近计算的HfO2中氧空位缺陷引起的缺陷能级一致。观察到这些浅缺陷对栅堆工艺条件有很强的敏感性,并且发现抑制HfO2层中氧空位的形成可以降低正偏置温度不稳定性(PBTI)
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2006 International Electron Devices Meeting
2006 International Electron Devices Meeting
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