自旋电子学在创建更高速、更节能的电路元件方面比标准半导体器件拥有更大的潜力。
Spintronics holds great promise for creating circuits that are faster and more energy efficient than standard semiconductor devices.
自旋电子学的飞速发展及其在电子器件领域的实用性使得磁性半导体成为当前的研究热点。
The rapid development of spintronics and its usefulness in the field of electronic devices makes the magnetic semiconductor become a research hotspot.
自旋电子学器件需要一个有效的自旋注入到传统的半导体中,最近人们比较感兴趣的是利用自旋相关的输运现象-自旋轨道耦合来产生自旋极化。
Of special interest is to produce an uneven spin population out of an unpolarized source by means of various spin-related transport phenomena (relativistic spin-orbit interaction).
半导体物理学是凝聚态物理学的一个重要分支,也是现代微电子器件工艺学的理论核心。
Semiconductor physics is recognized as one of the major areas of condensed matter physics and the core of modern micro-electronics device technology.
半导体物理学是凝聚态物理学的一个重要分支,也是现代微电子器件工艺学的理论核心。
Semiconductor physics is recognized as one of the major areas of condensed matter physics and the core of modern micro-electronics device technology.
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