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arxiv 1908.03778 v2 pith:5YOBQPGB submitted 2019-08-10 cond-mat.mes-hall

Spin-layer locking of interlayer excitons trapped in moir\'e potentials

classification cond-mat.mes-hall
keywords indexmoirlayerquantumatomicbilayerfreedomheterostructures
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Van der Waals heterostructures offer attractive opportunities to design quantum materials. For instance, transition metal dichalcogenides (TMDs) possess three quantum degrees of freedom: spin, valley index, and layer index. Further, twisted TMD heterobilayers can form moir\'e patterns that modulate the electronic band structure according to atomic registry, leading to spatial confinement of interlayer exciton (IXs). Here we report the observation of spin-layer locking of IXs trapped in moir\'e potentials formed in a heterostructure of bilayer 2H-MoSe$_2$ and monolayer WSe$_2$. The phenomenon of locked electron spin and layer index leads to two quantum-confined IX species with distinct spin-layer-valley configurations. Furthermore, we observe that the atomic registries of the moir\'e trapping sites in the three layers are intrinsically locked together due to the 2H-type stacking characteristic of bilayer TMDs. These results identify the layer index as a useful degree of freedom to engineer tunable few-level quantum systems in two-dimensional heterostructures.

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  1. Unveiling the Spin-Valley Structure of Dipolar Exciton Ladders in R-stacked WSe$_2$/WS$_2$ Moir\'e Heterobilayers

    cond-mat.mes-hall 2026-07 conditional novelty 6.0

    Helicity-resolved magneto-photoluminescence reveals that the unequal spacing of the dipolar exciton ladder in R-stacked WSe₂/WS₂ arises from triplet and singlet spin-valley two-exciton states, not simple occupation-nu...