南京大学学报(自然科学版)
南京大學學報(自然科學版)
남경대학학보(자연과학판)
JOURNAL OF NANJING UNIVERSITY(NATURAL SCIENCES)
2014年
3期
309-319
,共11页
自旋电子学%量子调控%异质结%自旋场效应晶体管(SFET)
自鏇電子學%量子調控%異質結%自鏇場效應晶體管(SFET)
자선전자학%양자조공%이질결%자선장효응정체관(SFET)
spintronics%quantum manipulation%heterostructure%spin field effect transistor(SFET)
简要介绍了3种不同的低维磁性耦合材料体系(即磁体/半导体、石墨烯、拓扑绝缘体形成的异质结构体系)的研究进展,重点讨论了其新物性、电/光场调控以及存在的若干问题,并提出了一些可能的解决方法。
簡要介紹瞭3種不同的低維磁性耦閤材料體繫(即磁體/半導體、石墨烯、拓撲絕緣體形成的異質結構體繫)的研究進展,重點討論瞭其新物性、電/光場調控以及存在的若榦問題,併提齣瞭一些可能的解決方法。
간요개소료3충불동적저유자성우합재료체계(즉자체/반도체、석묵희、탁복절연체형성적이질결구체계)적연구진전,중점토론료기신물성、전/광장조공이급존재적약간문제,병제출료일사가능적해결방법。
This review paper simply described the progress of three low-dimensional magnetic coupling systems,i.e., ferromagnet/semiconductor,ferromagnet/graphene,and ferromagnet/topological insulator heterostructure systems. Their new properties based on spin-orbital coupling and their external quantum manipulation by electric/optic field were discussed,especially focusing on some existed problems.We proposed some constructive solutions in the review.This active and rapid-developing field is expected to produce new-generation spintronic devices and benefits for information technology and innovation.
