Evolution of Hole Trapping in the Oxynitride Gate p-MOSFET Subjected to Negative-Bias Temperature Stressing

Boo A. A.; Ang D. S.

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Evolution of Hole Trapping in the Oxynitride Gate p-MOSFET Subjected to Negative-Bias Temperature Stressing

机译：负偏置温度应力作用下氮氧化物栅p-MOSFET空穴陷阱的演变

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We present experimental evidence of a thermally activated transformation of negative-bias-temperature-stress-induced transient hole trapping at preexisting oxide traps into more permanent trapped holes in the ultrathin oxynitride gate p-MOSFET. The transformation is also shown to correlate with the generation of stress-induced leakage current, indicating that it is one of the key mechanisms of bulk trap generation. A similar observation (reported elsewhere) applies to the $ hbox{HfO}_{2}$ gate p-MOSFET, implying that the observed hole-trap transformation is a common mechanism for bulk trap generation across different gate oxide technologies. The results further imply that preexisting oxide defects, usually deemed irrelevant to negative-bias temperature instability, have a definite role on long-term device parametric drifts.

机译：我们目前提供的实验证据表明，负偏压温度应力引起的瞬态空穴陷阱在预先存在的氧化物陷阱中被热激活转变为超薄氮氧化物栅极p-MOSFET中更永久的陷阱空穴。该转换还显示出与应力引起的漏电流的产生相关，这表明它是大体积陷阱产生的关键机制之一。类似的观察结果（在其他地方报道）适用于hbox {HfO} _ {2} $栅极p-MOSFET，这意味着观察到的空穴陷阱转换是跨不同栅极氧化物技术生成体陷阱的常见机制。结果进一步暗示，通常被认为与负偏置温度不稳定性无关的预先存在的氧化物缺陷对长期的器件参数漂移具有确定的作用。

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来源
《Electron Devices, IEEE Transactions on》 |2012年第11期|p.3133-3136|共4页
作者
Boo A. A.; Ang D. S.;
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作者单位

School of Electrical and Electronic Engineering, Nanyang Technological University, Singapore;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Bias-temperature instability; MOSFET; oxygen vacancy; oxynitride; stress-induced leakage current (SILC);

机译：偏压温度不稳定性;MOSFET;氧空位;氮氧化物;应力感应漏电流（SILC）;

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专利

1. Observation of Suppressed Interface State Relaxation Under Positive Gate Biasing of the Ultrathin Oxynitride Gate p-MOSFET Subjected to Negative-Bias Temperature Stressing [J] . D. S. Ang IEEE Electron Device Letters . 2006,第5期

机译：负偏置温度应力下超薄氧氮化物栅极p-MOSFET的正栅极偏置下抑制的界面态弛豫的观察
2. The Impact of Nitrogen Engineering in Silicon Oxynitride Gate Dielectric on Negative-Bias Temperature Instability of p-MOSFETs: A Study by Ultrafast On-The-Fly $I_{rm DLIN}$ Technique [J] . Maheta V. D., Olsen C., Ahmed K., IEEE Transactions on Electron Devices . 2008,第7期

机译：氮氧化硅栅极介质中的氮工程对p-MOSFET的负偏压温度不稳定性的影响：超快速运行$ I_ {rm DLIN} $技术的研究
3. Anomalous Gate Current Hump after Dynamic Negative Bias Stress and Negative-Bias Temperature-Instability in p-MOSFETs with Hf_xZr_(1-x)O_2 and HfO_2/Metal Gate Stacks [J] . Szu-Han Ho, Ting-Chang Chang, Chi-Wei Wu ECS Journal of Solid State Science and Technology . 2013,第9期

机译：具有Hf_xZr_（1-x）O_2和HfO_2 /金属栅叠层的p-MOSFET在动态负偏置应力和负偏置温度不稳定性之后的异常栅极电流驼峰
4. Transient to temporarily permanent and permanent hole trapping transformation in the small area SiON P-MOSFET subjected to negative-bias temperature stress [C] . Tung Z.Y., Ang D.S. International Symposium on the Physical and Failure Analysis of Integrated Circuits . 2014

机译：承受负偏压的小面积SiON P-MOSFET的瞬态到临时永久和永久空穴陷阱转换
5. Enhanced hot-hole degradation and negative bias temperature instability (NBTI) in p+-poly PMOSFETs with oxynitride gate dielectrics. [D] . Chen, Yuh-Yue. 1999

机译：具有氧氮化物栅极电介质的p + -poly PMOSFET中的热孔退化和负偏压温度不稳定性（NBTI）增强。
6. Light-assisted deep-trapping of holes in conjugated polymers [O] . Josh C. Bolinger, Leonid Fradkin, Kwang-Jik Lee, 2009

机译：共轭聚合物中的光辅助深陷陷阱
7. The impact of nitrogen engineering in silicon oxynitride gate dielectric on negative-bias temperature instability of p-MOSFETs: A study by ultrafast on-the-fly I-DLIN technique [O] . MAHETA VD, OLSEN C, AHMED K, 2008

机译：氮氧氮化硅栅极电介质中的氮工程对p-MOSFET负偏压温度不稳定性的影响：超快速I-DLIN技术研究

Evolution of Hole Trapping in the Oxynitride Gate p-MOSFET Subjected to Negative-Bias Temperature Stressing

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