本文用密度泛函理论方法系统地研究了稀磁半导体材料。
First-principles methods based upon density functional theory are performed for diluted magnetic semiconductor.
高性能稀磁半导体材料的研究,日益成为科技界的热点。
Great attention has been paid on the study of diluted magnetic semiconductor, which has good magnetic properties.
稀磁半导体作为自旋电子学的重要基础,目前引起了科学界广泛的关注。
Meanwhile, as the footstone of designing spin-based devices, diluted magnetic semiconductors have now drawn dramatic attentions.
该镍离子掺杂的氧化镉基稀磁半导体纳米材料存在形态为纳米粉末和纳米薄膜。
The existence mode of the nickel ion-doped cadmium oxide-based diluted magnetic semiconductor nano material is the nano powder and the nano film.
稀磁半导体材料具有磁光、磁电、磁输运等各种新颖的特性,使其在航空、航天等高科技领域中有着巨大的应用前景。
Diluted magnetic semiconductor, which has novel magneto-optical, magneto-electricity and magnetic transport properties has a great prospect in the fields of aviation and aerospace.
因此只有通过对稀磁半导体材料微结构与物理特性的系统、深入研究才能获得关于材料性能的清晰理解,为器件研制打下坚实的基础。
Only by systematic and deep research on the microstructure and physical characteristics of DMS, the follow work on devices can be carried out.
因此只有通过对稀磁半导体材料微结构与物理特性的系统、深入研究才能获得关于材料性能的清晰理解,为器件研制打下坚实的基础。
Only by systematic and deep research on the microstructure and physical characteristics of DMS, the follow work on devices can be carried out.
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