| 1. | Research progress and application of semiconductor spintronics
材料泊松比测试方法的研究进展 |
| 2. | It is no surprise that the information storage industry has provided the initial successes in spintronics technology
资料储存业界目前已成功地开始运用自旋电子科技,而这并不令人意外。 |
| 3. | The most exciting developments in semiconductor spintronics will probably be devices we have not imagined yet
半导体自旋电子学的发展最令人兴奋之处,莫过于我们有可能发现一些现在还想像不到的新元件。 |
| 4. | Whether one looks at the near term for tomorrow ' s consumer electronics or at the more distant prospect of quantum computing , spintronics promises to be revolutionary
无论从近程的消费性电子产品或是远程的量子计算来看,自旋电子学肯定都是革命性的发展。 |
| 5. | Whereas the metallic spintronic devices just described provide new ways to store information , semiconductor spintronics may offer even more interesting possibilities
上述金属自旋电子元件提供了储存资料的新方法,而半导体自旋电子元件则可能提供更有趣的功能。 |
| 6. | Thereafter , the current development of the investigation on semiconductor spintronics and its applications in the electron spin devices and realization of quantum computers are reported in this paper
综述了半导体自旋电子学目前的研究进展及其在自旋电子器件和量子信息处理中的应用。 |
| 7. | A key research question for this second category of spintronics is how well electrons can maintain a specific spin state when traveling through a semiconductor or crossing from one material to another
当电子通过半导体,或在不同物质间传导时,如何保持特定的自旋态,则是第二类自旋电子学研究中的关键问题。 |
| 8. | Indeed , a recent series of unexpected discoveries appears to support our hunch that semiconductor spintronics provides a feasible path for developing quantum computers and other quantum information machines
最近一些非预期的发现也支持了这种想法,显示出要发展量子电脑及其他量子资讯设备,半导体自旋电子学的确提供了一条可行的途径。 |
| 9. | Mere giant magnetoresistance , which debuted in commercial hard drives back in 1998 , represented the first example of so - called spintronics , or electronics based not on charge but spin , the property of an electron that makes it act like a tiny bar magnet
不过仅有在1998年的商业化硬盘上首度亮相的巨磁电阻效应才是称之为自旋电子- -或非基于电荷而是旋转(电子的这个特性使它像一个小型的条形磁铁)的电子- - - -的首个例子。 |
| 10. | A brief introduction to semiconductor spintronics that includes magnetic semiconductor , magnetic / semiconductor compound structures , spin phenomena in the non - magnetic semiconductor quantum well and nanostructures , and spin injection into semiconductor etc . is given
摘要简单介绍了半导体自旋电子学的研究对象和内容,主要包括磁性半导体、磁性半导体复合结构、非磁性半导体量子阱和纳米结构中的自旋现象,以及半导体的自旋注入等。 |
