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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

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

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Degradation of p-MOSFET parameters during negative-bias temperature instability (NBTI) stress is studied for different nitridation conditions of the silicon oxynitride (SiON) gate dielectric, using a recently developed ultrafast on-the-fly I-DLIN technique having 1-mu s resolution. It is shown that the degradation magnitude, as well as its time, temperature, and field dependence, is governed by nitrogen (N) density at the Si/SiON interface. The relative contribution of interface trap generation and hole trapping to overall degradation as varying interfacial N density is qualitatively discussed. Plasma oxynitride films having low interfacial N density show interface trap dominated degradation, whereas relative hole trapping contribution increases for thermal oxynitride films having high N density at the Si/SiON interface.

机译：使用最近开发的具有1-mu的超快速I-DLIN技术，研究了氮氧化硅（SiON）栅极电介质在不同氮化条件下负偏压温度不稳定性（NBTI）应力下p-MOSFET参数的退化的分辨率。结果表明，降解幅度及其时间，温度和场依赖性取决于Si / SiON界面上的氮（N）密度。定性地讨论了随着界面氮密度的变化，界面陷阱的产生和空穴陷阱对整体降解的相对贡献。具有低界面N密度的等离子体氧氮化物膜表现出界面陷阱占主导的降解，而对于具有高N密度的Si / SiON界面处的热氧氮化物膜，相对的空穴俘获贡献增加。

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MAHETA VD; OLSEN C; AHMED K; MAHAPATRA S;
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年度 2008
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1. 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
2. Mechanism for Nitrogen-Originated Negative-Bias Temperature Instability ina MOSFET with a Si-Oxynitride Gate Dielectric [J] . Eun-Cheol LEE, Heongkyu JU Journal of the Korean Physical Society . 2008,第2期

机译：Si-氮氧化硅栅介电质的MOSFET中氮引起的负偏置温度不稳定性的机理
3. Development of an Ultrafast On-the-Fly $I_{rm DLIN}$ Technique to Study NBTI in Plasma and Thermal Oxynitride p-MOSFETs [J] . Maheta V.D., Kumar E.N., Purawat S., IEEE Transactions on Electron Devices . 2008,第10期

机译：开发超快飞行 $ I_ {rm DLIN} $ 技术研究血浆和热氮氧化物中的NBTI -MOSFET的
4. Increase of parasitic resistance of p-MOSFETs due to nitrogen atoms incorporation into silicon substrate by N/sub 2/O-oxynitride gate dielectrics process [C] . Takayanagi-Takagi, M., Yoshimura, . 1997

机译：N / sub 2 / O-氧氮化物栅极电介质工艺将氮原子掺入硅衬底，导致p-MOSFET的寄生电阻增加
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. A Randomized Controlled Study Comparing Efficacy of Classical and Gow-Gates Technique for Providing Anesthesia During Surgical Removal of Impacted Mandibular Third Molar: A Split Mouth Design [O] . Nanjappa Madan, Kateel Shashidhara Kamath, A. L. Gopinath, 2017

机译：比较经典和Gow-Gates技术在手术切除下颌第三磨牙的麻醉过程中提供麻醉效果的随机对照研究：分口设计
7. Development of an ultrafast on-the-fly I DLIN technique to study NBTI in plasma and thermal oxynitride p-MOSFETs [O] . MAHETA VD, NARESH KUMAR E, PURAWAT S, 2008

机译：开发超快I DLIN技术研究等离子体和热氧氮化物p-MOSFET中的NBTI
8. Properties of Thin Oxynitride Gate Dielectrics Produced by Thermal Nitridation of Silicon Dioxide [R] . Naiman, M. L., Burns, J. A., Aucoin, R., 1980

机译：二氧化硅热氮化制备薄氧氮化物栅介质的性能

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

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