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Giant Valley Coherence at Room Temperature in 3R WS2 with Broken Inversion Symmetry.

Luojun DuJian TangJing LiangMengzhou LiaoZhiyan JiaQinghua ZhangYanchong ZhaoRong YangDongxia ShiLin GuJianyong XiangKaihui LiuZhipei SunGuangyu Zhang
Published in: Research (Washington, D.C.) (2019)
Breaking the space-time symmetries in materials can markedly influence their electronic and optical properties. In 3R-stacked transition metal dichalcogenides, the explicitly broken inversion symmetry enables valley-contrasting Berry curvature and quantization of electronic angular momentum, providing an unprecedented platform for valleytronics. Here, we study the valley coherence of 3R WS2 large single-crystal with thicknesses ranging from monolayer to octalayer at room temperature. Our measurements demonstrate that both A and B excitons possess robust and thickness-independent valley coherence. The valley coherence of direct A (B) excitons can reach 0.742 (0.653) with excitation conditions on resonance with it. Such giant and thickness-independent valley coherence of large single-crystal 3R WS2 at room temperature would provide a firm foundation for quantum manipulation of the valley degree of freedom and practical application of valleytronics.
Keyphrases
  • room temperature
  • ionic liquid
  • computed tomography
  • optical coherence tomography
  • high throughput