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Room-temperature plexcitonic strong coupling: Ultrafast dynamics for quantum applications

Xiao Xiong, Nuttawut Kongsuwan, Yiming Lai, Ching Eng Png, Lin Wu, Ortwin Hess

2021Applied Physics Letters40 citationsDOIOpen Access PDF

Abstract

Strong light–matter interaction is at the heart of modern quantum technological applications and is the basis for a wide range of rich optical phenomena. Coupling a single quantum emitter strongly with electromagnetic fields provides an unprecedented control over its quantum states and enables high-fidelity quantum operations. However, single-emitter strong coupling is exceptionally fragile and has been realized mostly at cryogenic temperatures. Recent experiments have, however, demonstrated that single-emitter strong coupling can be realized at room temperature by using plasmonic nanocavities that confine optical fields via surface plasmons strongly on metal surfaces and facilitate sub-picosecond light–matter interaction. Here, we outline recent theoretical developments and experimental demonstrations of room-temperature strong coupling in the plasmonic platform, from emitter ensembles down to the single emitter limit, before placing a focus on selective studies that explore and provide insight into applications of plexcitonic strong coupling including sensing of single biological molecules, qubit entanglement generation, and reconfigurable single-photon sources and provide an outline of research directions in quantum sensing, quantum information processing, and ultrafast spectroscopy.

Topics & Concepts

Common emitterPhysicsPlasmonQuantum sensorQuantum technologyPhotonQuantum entanglementUltrashort pulseCoupling (piping)QuantumQuantum imagingOptoelectronicsQuantum opticsOpen quantum systemQuantum mechanicsMaterials scienceLaserMetallurgyStrong Light-Matter InteractionsQuantum Information and CryptographyNeural Networks and Reservoir Computing