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Progressive breakdown dynamics and entropy production in ultrathin SiO2 gate oxides

机译：超薄SiO2栅极氧化物的逐步击穿动力学和熵产生

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摘要

The progressive breakdown of ultrathin (≈2nm) SiO2 gate oxides subjected to constant electrical stress is investigated using a simple equivalent circuit model. It is shown how the interplay among series, parallel, and filamentary conductances that represent the breakdown path and its surroundings leads under certain hypothesis to a sigmoidal current-time characteristic compatible with the experimental observations. The dynamical properties of the breakdown trajectories are analyzed in terms of the logistic potential function, the Lyapunov exponent, and the system’s attractor. It is also shown that the current evolution is compatible with Prigogine’s minimum entropy production principle.

机译：使用简单的等效电路模型研究了承受恒定电应力的超薄（≈2nm）SiO2栅极氧化物的逐步击穿。它显示了在特定假设下，代表击穿路径及其周围环境的串联，并联和丝状电导之间的相互作用如何导致与实验观察结果相符的S形电流-时间特性。根据逻辑势函数，Lyapunov指数和系统的吸引子，分析了故障轨迹的动力学特性。研究还表明，当前的发展与Prigogine的最小熵产生原理兼容。

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Miranda Enrique Alberto;
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年度 2011
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正文语种 eng
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专利

1. Progressive breakdown dynamics and entropy production in ultrathin SiO_2 gate oxides [J] . E. Miranda, D. Jimenez, J. Sune Applied Physics Letters . 2011,第25期

机译：超薄SiO_2栅极氧化物的逐步击穿动力学和熵产生
2. A strong analogy between the dielectric breakdown of high-K gate stacks and the progressive breakdown of ultrathin oxides [J] . Santi Tous, Ernest Y. Wu, Enrique Miranda, Journal of Applied Physics . 2011,第12期

机译：高K栅堆叠的介电击穿与超薄氧化物的逐步击穿之间有很强的类比
3. Reliable Assessment of Progressive Breakdown in Ultrathin MOS Gate Oxides Toward Accurate TDDB Evaluation [J] . Tsujikawa S., Kanno M., Nagashima N. Electron Devices, IEEE Transactions on . 2011,第5期

机译：可靠评估超薄MOS栅极氧化物中的逐步击穿，以便进行准确的TDDB评估
4. Logistic Modeling of Progressive Breakdown in Ultrathin Gate Oxides [C] . E. Miranda, L. Bandiera, A. Cester, 33rd European Solid-State Device Research Conference (ESSDERC 2003); Sep 16-18, 2003; Estoril, Portugal . 2003

机译：超薄栅氧化物逐步击穿的逻辑模型
5. Degradation and breakdown of ultrathin gate oxide. [D] . Wu, Jie. 2001

机译：超薄栅极氧化物的降解和分解。
6. A Novel Microstructural Evolution Model for Growth of Ultra-Fine Al2O3 Oxides from SiO2 Silica Ceramic Decomposition during Self-Propagated High-Temperature Synthesis [O] . Mateusz Kopec, Stanisław Jóźwiak, Zbigniew L. Kowalewski 2020

机译：自蔓延高温合成过程中由SiO2二氧化硅陶瓷分解生成超细Al2O3氧化物的新型微观结构演化模型
7. Mesoscopic approach to progressive breakdown in ultrathin SiO2 layers [O] . Miranda Enrique Alberto 2007

机译：介观方法在超薄SiO2层中进行逐步击穿
8. Interfacial and Breakdown Characteristics of MOS (Metal-Oxide-Semiconductor) Devices with Rapidly Grown Ultrathin SiO2 Gate Insulators. [R] . Moslehi, M. M., Shatas, S. C., Saraswat, K. C., 1987

机译：具有快速生长的超薄siO2栅极绝缘体的mOs（金属氧化物半导体）器件的界面和击穿特性。

Progressive breakdown dynamics and entropy production in ultrathin SiO2 gate oxides

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