位错的形成与离子注入引进的损伤和淬火过程中的热应力有关。
The ion-implantation damage defects and thermal stress during quenching step are responsible for the formation of dislocations.
氢等离子体退火对电活性的位错态有显著的钝化作用。
They can be passivated with hydrogen plasma annealing and reactivated by subsequent thermal annealing in vacuum.
这种低频的离子噪声特别是相位噪声,会严重影响雷达系统的分辨能力和通讯系统的编码位错率。
The low frequency ion noise has negative influence on detectability in radar application and data rates in communication system.
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