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On the physical mechanism of NBTI in silicon oxynitride p-MOSFETs: can differences in insulator processing conditions resolve the interface trap generation versus hole trapping controversy?

机译：关于氮氧化硅p-MOSFET中NBTI的物理机制：绝缘体处理条件的差异能否解决界面陷阱的产生与空穴陷阱的争论？

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Negative Bias Temperature Instability (NBTI) is studied in plasma (PNO) and thermal (TNO) Si-oxynitride devices having varying EOT. Threshold voltage shift (Delta V(T)) and its field (E(OX)), temperature (T) and time (t) dependencies obtained from no-delay on-the-fly linear drain current (I(DLIN)) measurements are carefully compared to that obtained from Charge Pumping (CP). It is shown that thin and thick PNO and thin TNO devices show very similar NBTI behavior, which can primarily be attributed to generation of interface traps (Delta N(IT)). Thicker TNO devices show different NBTI behavior, and can be attributed to additional contribution from hole trapping (Delta N(h)) in pre-existing bulk traps. A physics based model is developed to explain the experimental results.

机译：在具有不同EOT的等离子体（PNO）和热（TNO）硅氮氧化物器件中研究了负偏压温度不稳定性（NBTI）。从无延迟动态线性漏极电流（I（DLIN））测量获得的阈值电压偏移（Delta V（T））及其场（E（OX）），温度（T）和时间（t）依赖性与从电荷泵（CP）获得的结果进行了仔细比较。结果表明，薄型PNO和厚型PNO和薄型TNO设备显示出非常相似的NBTI行为，这主要归因于接口陷阱的生成（Delta N（IT））。较厚的TNO器件显示出不同的NBTI行为，并且可以归因于预先存在的体阱中的空穴陷阱（Delta N（h））。建立了基于物理学的模型来解释实验结果。

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MAHAPATRA, S; AHMED, K; VARGHESE, D; ISLAM, AE; GUPTA, G; MADHAV, L; SAHA, D; ALAM, MA;
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年度 2007
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正文语种 English
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1. Modeling of NBTI Stress Induced Hole-Trapping and Interface-State-Generation Mechanisms under a Wide Range of Bias Conditions [J] . Chenvue MA, Hans Juergen MATTAUSCH, Masataka MIYAKE, IEICE Transactions on Electronics . 2013,第10期

机译：宽偏置条件下NBTI应力诱导的空穴陷阱和界面状态生成机制的建模
2. Isolation of NBTI Stress Generated Interface Trap and Hole-Trapping Components in PNO p-MOSFETs [J] . Mahapatra S., Maheta V. D., Islam A. E., IEEE Transactions on Electron Devices . 2009,第2期

机译：PNO p-MOSFET中NBTI应力产生的界面陷阱和空穴陷阱组件的隔离
3. Characterization of NBTI-Induced Interface State and Hole Trapping in SiON Gate Dielectrics of p-MOSFETs [J] . Lee J. H., Oates A. S. Device and Materials Reliability, IEEE Transactions on . 2010,第2期

机译：p-MOSFET的SiON栅极电介质中NBTI诱导的界面状态和空穴陷阱的表征
4. On the Physical Mechanism of NBTI in Silicon Oxynitride p-MOSFETs: Can Differences in Insulator Processing Conditions Resolve the Interface Trap Generation versus Hole Trapping Controversy? [C] . Mahapatra, S., Ahmed, . 2007

机译：关于氮氧化硅p-MOSFET中NBTI的物理机制：绝缘子处理条件的不同能否解决界面陷阱的产生与空穴陷阱的争议？
5. An investigation of ionizing radiation-induced charge trapping and interface trap generation in insulators for CMOS VLSI and EEPROMs. [D] . Sharma, Umesh. 1989

机译：CMOS VLSI和EEPROMs绝缘子中电离辐射诱导的电荷陷阱和界面陷阱产生的研究。
6. Basic Mechanisms of Numerical Processing: Cross-Modal Number Comparisons and Symbolic Versus Nonsymbolic Numerosity in the Intraparietal Sulcus [O] . Christina F. Chick 2014

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7. Isolation of NBTI Stress Generated Interface Trap and Hole-Trapping Components in PNO p-MOSFETs [O] . MAHAPATRA S, MAHETA VD, ISLAM AE, 2009

机译：PNO p-MOSFET中NBTI应力产生的界面陷阱和空穴陷阱组件的隔离
8. Defect-Related Dielectric Breakdown, Change Trapping, and Interface-State Generation of Gate Oxides Grown on Zone-Melting-Recrystallized Silicon-on-Insulator Films [R] . Lee, C. T., Chen, C. K. 1989

机译：区域熔化 - 重结晶硅 - 绝缘体薄膜上产生的缺陷相关介电击穿，变化陷阱和界面态氧化物生成

On the physical mechanism of NBTI in silicon oxynitride p-MOSFETs: can differences in insulator processing conditions resolve the interface trap generation versus hole trapping controversy?

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