Ultrafast Nanoscopy of an Exciton Mott Transition in Twisted Bilayer WSe2
2022 47th International Conference on Infrared, Millimeter and Terahertz Waves (IRMMW-THz)(2022)
摘要
The density-driven transition of an exciton gas into a plasma of unbound electron-hole pairs has provided a compelling testbed for exploring many-body physics. Here, we use ultrafast polarization nanoscopy to trace a Mott transition of excitons in a twisted bilayer of WSe
2
. An initially monomolecular recombination of optically dark excitons continuously evolves into bimolecular recombination of unbound electrons and holes as the density is increased. Furthermore, we reveal directly how the Mott transition varies on nanometer length scales, demonstrating how the technique is indispensable in the study of intrinsically disordered van der Waals materials.
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关键词
exciton Mott transition,twisted bilayer,density-driven transition,exciton gas,unbound electron-hole pairs,manybody physics,ultrafast polarization nanoscopy,monomolecular recombination,optically dark excitons,bimolecular recombination,disordered van der Waals material,WSe2
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