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Exciton Dipole Orientation of Strain-Induced Quantum Emitters in WSe<sub>2</sub>

Yue Luo, Na Liu, Bumho Kim, James Hone, Stefan Strauf

2020Nano Letters39 citationsDOI

Abstract

Transition metal dichalcogenides are promising semiconductors to enable advances in photonics and electronics and have also been considered as a host for quantum emitters. Particularly, recent advances demonstrate site-controlled quantum emitters in WSe2 through strain deformation. Albeit essential for device integration, the dipole orientation of these strain-induced quantum emitters remains unknown. Here we employ angular-resolved spectroscopy to experimentally determine the dipole orientation of strain-induced quantum emitters. It is found that with increasing local strain the quantum emitters in WSe2 undergo a transition from in-plane to out-of-plane dipole orientation if their emission wavelength is longer than 750 nm. In addition, the exciton g-factor remains with average values of g = 8.52 ± 1.2 unchanged in the entire emission wavelength. These findings provide experimental support of the interlayer defect exciton model and highlight the importance of an underlying three-dimensional strain profile of deformed monolayer semiconductors, which is essential to optimize emitter-mode coupling in nanoplasmonics.

Topics & Concepts

ExcitonDipoleSemiconductorMaterials scienceMonolayerQuantumOptoelectronicsPhotonicsWavelengthStrain (injury)Common emitterCondensed matter physicsMolecular physicsNanotechnologyPhysicsQuantum mechanicsInternal medicineMedicine2D Materials and ApplicationsGraphene research and applicationsPerovskite Materials and Applications
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