Valleytronics in transition metal dichalcogenides materials 被引量：7

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摘要 Valley degree of freedom in the first Brillouin zone of Bloch electrons offers an innovative approach to information storage and quantum computation.Broken inversion symmetry together with the presence of time-reversal symmetry endows Bloch electrons non-zero Berry curvature and orbital magnetic moment,which contribute to the valley Hall effect and optical selection rules in valleytronics.Furthermore,the emerging transition metal dichalcogenides(TMDs)materials naturally become the ideal candidates for valleytronics research attributable to their novel structural,photonic and electronic properties,especially the direct bandgap and broken inversion symmetry in the monolayer.However,the mechanism of inter-valley relaxation remains ambiguous and the complicated manipulation of valley predominantly incumbers the realization of valleytronic devices.In this review,we systematically demonstrate the fundamental properties and tuning strategies(optical,electrical,magnetic and mechanical tuning)of valley degree of freedom,summarize the recent progress of TMD-based valleytronic devices.We also highlight the conclusion of present challenges as well as the perspective on the further investigations in valleytronics.

作者 Yanping Liu Yuanji Gao Siyu Zhang Jun He Juan Yu Zongwen Liu

机构地区 School of Plhysics and Elecrorics State Key Laboralory of High Performance Complex Manufacturing School of Electronics and Information School of Chemical and Biomolecular Engineering

出处《Nano Research》 SCIE EI CAS CSCD 2019年第11期2695-2711,共17页 纳米研究（英文版）

基金 the Innovation-driven Project(No.2017CX019) Youth Innovation Team(No.2019012)of CSU,Hunan Key Research and Development Project(No.2019GK233) partially by the National Natural Science Foundation of China(No.61775241).

关键词 valleytronics valley excitons transition metal dichalogenides(TMDs) valley Hall effect quantum devices

分类号 O17 [理学—基础数学]

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