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Probing dark exciton navigation through a local strain landscape in a WSe2 monolayer

Ryan J. Gelly, Dylan Renaud, Xing Liao, Benjamin Pingault, Stefan Bogdanović, Giovanni Scuri, Kenji Watanabe, Takashi Taniguchi, Bernhard Urbaszek, Hongkun Park, Marko Lončar

2022Nature Communications70 citationsDOIOpen Access PDF

Abstract

Abstract In WSe 2 monolayers, strain has been used to control the energy of excitons, induce funneling, and realize single-photon sources. Here, we developed a technique for probing the dynamics of free excitons in nanoscale strain landscapes in such monolayers. A nanosculpted tapered optical fiber is used to simultaneously generate strain and probe the near-field optical response of WSe 2 monolayers at 5 K. When the monolayer is pushed by the fiber, its lowest energy states shift by as much as 390 meV (>20% of the bandgap of a WSe 2 monolayer). Polarization and lifetime measurements of these red-shifting peaks indicate they originate from dark excitons. We conclude free dark excitons are funneled to high-strain regions during their long lifetime and are the principal participants in drift and diffusion at cryogenic temperatures. This insight supports proposals on the origin of single-photon sources in WSe 2 and demonstrates a route towards exciton traps for exciton condensation.

Topics & Concepts

ExcitonMonolayerStrain (injury)Materials sciencePhotonPolarization (electrochemistry)OptoelectronicsMolecular physicsChemical physicsCondensed matter physicsPhysicsNanotechnologyChemistryOpticsInternal medicineMedicinePhysical chemistry2D Materials and ApplicationsPerovskite Materials and ApplicationsPhotonic and Optical Devices
Probing dark exciton navigation through a local strain landscape in a WSe2 monolayer | Litcius