单空位缺陷边缘的碳原子吸附能量的能力强,但传递能量的能力弱。
We also found that, the carbon atom, at the vacancy edge, has more capacity to absorb incident energy, but has less capacity to spread the gained energy.
随辐照剂量的增大,单空位、双空位和位错浓度增加,空位团的尺度和浓度都随之增大。
The concentrations of the mono-and di-vacancies and dislocations and both the concentration and size of the vacancy clusters or voids all increase with the increasing of the irradiation dose.
绿峰强度的不同取决于其结构中不同浓度的单离子氧空位。
The difference in green emission intensity results from the different level of oxygen vacancies in ZnO structures.
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