摘要
Owing to the bipartite nature of honeycomb lattice,the electrons in graphene host valley degree of freedom,which gives rise to a rich set of unique physical phenomena including chiral tunneling,Klein paradox,and quantum Hall ferromagnetism.Atomic defects in graphene can efficiently break the local sublattice symmetry,and hence,have significant effects on the valley-based electronic behaviors.Here we demonstrate that an individual flower defect in graphene has the ability of valley filter at the atomic scale.With the combination of scanning tunneling microscopy and Landau level measurements,we observe two valley-polarized density-of-states peaks near the outside of the flower defects,implying the symmetry breaking of the K and K′valleys in graphene.Moreover,the electrons in the K valley can highly penetrate inside the flower defects.In contrast,the electrons in the K′valley cannot directly penetrate,instead,they should be assisted by the valley switch from the K′to K.Our results demonstrate that an individual flower defect in graphene can be regarded as a nanoscale valley filter,providing insight into the practical valleytronics.
作者
张钰
刘榕
周丽丽
张璨
杨国元
王业亮
何林
Yu Zhang;Rong Liu;Lili Zhou;Can Zhang;Guoyuan Yang;Yeliang Wang;Lin He(School of Integrated Circuits and Electronics,MIIT Key Laboratory for Low-Dimensional Quantum Structure and Devices,Beijing Institute of Technology,Beijing 100081,China;Advanced Research Institute of Multidisciplinary Sciences,Beijing Institute of Technology,Beijing 100081,China;Center for Advanced Quantum Studies,Department of Physics,Beijing Normal University,Beijing 100875,China)
基金
supported by the National Key R&D Program of China(Grant Nos.2022YFA1402502,2022YFA1402602,2021YFA1400103,and 2020YFA0308800)
the National Natural Science Foundation of China(Grant Nos.92163206 and 12274026)
China Postdoctoral Science Foundation(Grant No.2021M700407)。
