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Vacancy Self-trapping During Rapid Thermal Annealing of Silicon Wafers

机译：硅晶圆快速热退火过程中的空位自陷

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The density and spatial distribution of oxide precipitates within a crystalline silicon wafer is of paramount importance for microelectronic device yield. In this letter, the authors show how the formation of previously unconsidered, very small vacancy aggregates can explain macroscopic spatial variations in the oxide precipitate density, which are observed following certain rapid thermal annealing conditions. The formation of these nanometer-sized voids is predicted on the basis of their recent model for vacancy aggregation that accounts for high temperature entropic effects.

机译：晶体硅晶片内氧化物沉淀物的密度和空间分布对于微电子器件的成品率至关重要。在这封信中，作者展示了先前未考虑的非常小的空位聚集体的形成如何解释氧化物沉淀物密度的宏观空间变化，这些变化是在某些快速热退火条件下观察到的。这些纳米大小的空隙的形成是根据其最近的空位聚集模型预测的，该模型解释了高温熵效应。

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作者
Frewen, Thomas A; Sinno, Talid;
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年度 2006
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1. Vacancy self-trapping during rapid thermal annealing of silicon wafers [J] . Thomas A. Frewen, Talid Sinno Applied Physics Letters . 2006,第19期

机译：硅晶片快速热退火过程中的空位自陷
2. Vacancy species produced by rapid thermal annealing of silicon wafers [J] . Vladimir V. Voronkov, Robert Falster Diffusion and Defect Data. Solid State Data, Part B. Solid State Phenomena . 2016,第Null期

机译：硅晶片快速热退火产生的空位物种
3. Multiple structural forms of a vacancy in silicon as evidenced by vacancy profiles produced by rapid thermal annealing [J] . Voronkov Vladimir, Falster Robert Physica status solidi, B. Basic research . 2014,第11期

机译：快速热退火产生的空位轮廓证明了硅中空位的多种结构形式
4. Vacancy species produced by rapid thermal annealing of silicon wafers [C] . Vladimir V. Voronkov, Robert Falster International Conference on Gettering and Defect Engineering in Semiconductor Technology . 2016

机译：硅晶片快速热退火生产的空位物种
5. Measurement and control of silicon wafer temperature and oxide film thickness in rapid thermal processing using in situ ellipsometry. [D] . Sampson, Ronald Kevin. 1992

机译：使用原位椭偏仪在快速热处理中测量和控制硅片温度和氧化膜厚度。
6. Manipulating the adhesion of electroless nickel-phosphorus film on silicon wafers by silane compound modification and rapid thermal annealing [O] . Chin-Wei Hsu, Wei-Yen Wang, Kuan-Ting Wang, -1

机译：通过硅烷化合物改性和快速热退火处理化学镀镍磷膜在硅片上的附着力
7. Phase-Field Simulation for the Effects of Initial Vacancy Concentration and Annealing Temperature on Oxygen Clusters in Silicon Wafer [O] . Xiao-Jun Guan, Xiang Ji 2016

机译：初始空位浓度和退火温度对硅晶片氧簇的影响的相场模拟
8. Group-V impurities in silicon: A study on their interactions with each other and with vacancies during rapid thermal annealing [R] . Nylandsted Larsen, A. 1996

机译：硅中的V族杂质：研究它们在快速热退火过程中彼此之间的相互作用以及空位

Vacancy Self-trapping During Rapid Thermal Annealing of Silicon Wafers

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