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Paper detail

Spin-Valley Locking Effect in Defect States of Monolayer MoS$_2$

Valley pseudospin in two-dimensional (2D) transition-metal dichalcogenides (TMDs) allows optical control of spin-valley polarization and intervalley quantum coherence. Defect states in TMDs give rise to new exciton features and theoretically exhibit spin-valley polarization; however, experimental achievement of this phenomenon remains challenges. Here, we report unambiguous valley pseudospin of defect-bound localized excitons in CVD-grown monolayer MoS2; enhanced valley Zeeman splitting with an effective g-factor of -6.2 is observed. Our results reveal that all five d-orbitals and the increased effective electron mass contribute to the band shift of defect states, demonstrating a new physics of the magnetic responses of defect-bound localized excitons, strikingly different from that of A excitons. Our work paves the way for the manipulation of the spin-valley degrees of freedom through defects toward valleytronic devices.

preprint2020arXivOpen access
Yaqian WangLongjiang DengQilin WeiYi WanZhen LiuXiao LuYue LiLei BiLi ZhangHaipeng LuHaiyan ChenPeiheng ZhouLinbo ZhangYingchun ChengXiaoxu ZhaoYu YeWei HuangStephen J. PennycookKian Ping LohBo Peng
cond-mat.mes-hallcond-mat.mtrl-sci
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Yaqian WangLongjiang DengQilin WeiYi WanZhen LiuXiao LuYue LiLei BiLi ZhangHaipeng LuHaiyan ChenPeiheng ZhouLinbo ZhangYingchun ChengXiaoxu ZhaoYu YeWei HuangStephen J. PennycookKian Ping LohBo Peng

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