Microsecond Valley Lifetime of Defect-Bound Excitons in Monolayer WSe2

被引:129
|
作者
Moody, Galan [1 ]
Tran, Kha [2 ,3 ]
Lu, Xiaobo [4 ,5 ]
Autry, Travis [1 ]
Fraser, James M. [6 ]
Mirin, Richard P. [1 ]
Yang, Li [4 ,5 ]
Li, Xiaoqin [2 ,3 ]
Silverman, Kevin L. [1 ]
机构
[1] NIST, Boulder, CO 80305 USA
[2] Univ Texas Austin, Dept Phys, Austin, TX 78712 USA
[3] Univ Texas Austin, Ctr Complex Quantum Syst, Austin, TX 78712 USA
[4] Washington Univ St Louis, Dept Phys, St Louis, MO 63136 USA
[5] Washington Univ St Louis, Inst Mat Sci & Engn, St Louis, MO 63136 USA
[6] Queens Univ, Dept Phys Engn Phys & Astron, Kingston, ON K7L 3N6, Canada
来源
PHYSICAL REVIEW LETTERS | 2018年 / 121卷 / 05期
基金
美国国家科学基金会;
关键词
TRANSITION-METAL DICHALCOGENIDES; POLARIZATION; MOS2; PHOTOLUMINESCENCE; HETEROSTRUCTURE; SEMICONDUCTORS; COHERENCE; EMITTERS; LIGHT;
D O I
10.1103/PhysRevLett.121.057403
中图分类号
O4 [物理学];
学科分类号
0702 ;
摘要
In atomically thin two-dimensional semiconductors such as transition metal dichalcogenides (TMDs), controlling the density and type of defects promises to be an effective approach for engineering light-matter interactions. We demonstrate that electron-beam irradiation is a simple tool for selectively introducing defect-bound exciton states associated with chalcogen vacancies in TMDs. Our first-principles calculations and time-resolved spectroscopy measurements of monolayer WSe2 reveal that these defect-bound excitons exhibit exceptional optical properties including a recombination lifetime approaching 200 ns and a valley lifetime longer than 1 mu s. The ability to engineer the crystal lattice through electron irradiation provides a new approach for tailoring the optical response of TMDs for photonics, quantum optics, and valleytronics applications.
引用
收藏
页数:6
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