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Position-dependent chiral coupling between single quantum dots and cross waveguides

Shan Xiao, Shiyao Wu, Xin Xie, Jingnan Yang, Wenqi Wei, Shushu Shi, Feilong Song, Sibai Sun, Jianchen Dang, Longlong Yang, Yunuan Wang, Zhanchun Zuo, Ting Wang, Jianjun Zhang, Xiulai Xu

2021Applied Physics Letters22 citationsDOIOpen Access PDF

Abstract

Chiral light–matter interaction between photonic nanostructures with quantum emitters shows great potential to implement spin–photon interfaces for quantum information processing. Position-dependent spin momentum locking of the quantum emitter is important for these chiral coupled nanostructures. Here, we report the position-dependent chiral coupling between quantum dots (QDs) and cross waveguides both numerically and experimentally. Four quantum dots distributed at different positions in the cross section are selected to characterize the chiral properties of the device. Directional emission is achieved in a single waveguide and in both two waveguides simultaneously. In addition, the QD position can be determined with the chiral contrasts from four outputs. Therefore, the cross waveguide can function as a one-way unidirectional waveguide and a circularly polarized beam splitter by placing the QD at a rational position, which has potential applications in spin-to-path encoding for complex quantum optical networks at the single-photon level.

Topics & Concepts

Quantum dotPhysicsWaveguidePhotonicsCoupling (piping)QuantumOptoelectronicsElectro-absorption modulatorQuantum dot laserBeam splitterQuantum wireSplitterQuantum opticsQuantum networkQuantum sensorCondensed matter physicsQuantum mechanicsCommon emitterCross section (physics)Quantum simulatorQuantum technologyCavity quantum electrodynamicsQuantum informationMolecular physicsNanostructureMomentum (technical analysis)Spin (aerodynamics)Chirality (physics)Quantum point contactPosition (finance)Quantum and electron transport phenomenaQuantum optics and atomic interactionsQuantum Information and Cryptography
Position-dependent chiral coupling between single quantum dots and cross waveguides | Litcius