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Development of an ultrafast on-the-fly I DLIN technique to study NBTI in plasma and thermal oxynitride p-MOSFETs

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

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An ultrafast on-the-fly technique is developed to study linear drain current (I DLIN) degradation in plasma and thermal oxynitride p-MOSFETs during negative-bias temperature instability (NBTI) stress. The technique enhances the measurement resolution (ldquotime-zerordquo delay) down to 1 mus and helps to identify several key differences in NBTI behavior between plasma and thermal films. The impact of the time-zero delay on time, temperature, and bias dependence of NBTI is studied, and its influence on extrapolated safe-operating overdrive condition is analyzed. It is shown that plasma-nitrided films, in spite of having higher N density, are less susceptible to NBTI than their thermal counterparts.

机译：开发了一种超快速动态技术，以研究负偏压温度不稳定性（NBTI）应力下等离子体和热氮氧化物p-MOSFET中线性漏极电流（IDLIN）的退化。该技术将测量分辨率（“时间延迟”）提高到1微米，并有助于识别等离子和热膜之间NBTI行为的几个关键差异。研究了零时延对NBTI的时间，温度和偏置依存性的影响，并分析了其对外推安全操作过驱动条件的影响。结果表明，尽管氮密度较高，但等离子氮化膜比热氮化膜对NBTI的敏感性较小。

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MAHETA VD; NARESH KUMAR E; PURAWAT S; OLSEN C; AHMED K; MAHAPATRA S;
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年度 2008
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正文语种 eng
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1. 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
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. Development of a Novel Ultrafast Direct Threshold Voltage $(hbox{UF-DV}_{T})$ Technique to Study NBTI Stress and Recovery [J] . Deora S., Narayanasetti P., Thakkar M., Electron Devices, IEEE Transactions on . 2011,第10期

机译：新型超快直接阈值电压（hbox {UF-DV} _ {T}）$技术的开发，用于研究NBTI应力和恢复
4. Material Dependence of NBTI Physical Mechanism in Silicon Oxynitride (SiON) p-MOSFETs: A Comprehensive Study by Ultra-Fast On-The-Fly (UF-OTF) I{sub}(DLIN) Technique [C] . E. N. Kumar, V. D. Maheta, S. Purawat, IEEE International Electron Devices Meeting . 2007

机译：NBTI物理机制在氧氮化硅（SiON）P-MOSFET中的物质依赖性：超快速上飞（UF-OTF）I {Sub}（DIN）技术的综合研究
5. Odor gas reduction using silent and corona discharge plasma: An experimental study of non-thermal plasma techniques in pollution control. [D] . Wang, Yei. 2001

机译：使用静音和电晕放电等离子体减少气味气体：污染控制中非热等离子体技术的实验研究。
6. Spectroscopic Techniques for Monitoring Thermal Treatments in Fish and Other Seafood: A Review of Recent Developments and Applications [O] . Abdo Hassoun, Karsten Heia, Stein-Kato Lindberg, 2020

机译：光谱技术监测鱼类和其他海产品的热处理：最近的进展和应用回顾
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
8. Evaluation of the x-ray fluorescence (XRF) technique for process monitoring of vitreous slag from thermal waste treatment systems: A comparative study of the analysis of Plasma Hearth slag for Ce, Fe and Cr by XRF and inductively coupled plasma spectrometries [R] . Sutton, M. A. H. , Crane, P. J. , Cummings, D. G. , 1995

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Development of an ultrafast on-the-fly I DLIN technique to study NBTI in plasma and thermal oxynitride p-MOSFETs

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