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Directional energy transport in strongly coupled chiral quantum emitter plasmonic nanostructures. | LitMetric

Directional energy transport in strongly coupled chiral quantum emitter plasmonic nanostructures.

J Phys Condens Matter

Advanced Computing and Simulation Laboratory (AχL), Department of Electrical and Computer Systems Engineering, Monash University, Clayton, Victoria 3800, Australia.

Published: September 2021

AI Article Synopsis

  • - The study explores how using chiral quantum emitters in a setup with metal nanoparticle trimers can achieve directional exciton energy transport, which is crucial for various applications.
  • - By exciting the system with left and right circularly polarized photons, the researchers observe that the localized surface plasmon modes depend on polarization, resulting in chiral coupling between the emitters and the plasmon modes.
  • - The findings indicate that if the light-matter interaction is strong enough, it can facilitate directional exciton transport, pushing the system into a strong coupling regime.

Article Abstract

Achieving directional exciton energy transport can revolutionize a plethora of applications that depend on exciton energy transfer. In this study, we theoretically analyse a system that comprises a collection of chiral quantum emitters placed in a plasmonic setup made up of a metal nanoparticle trimer. We investigate the system by pumping left and right circularly polarized photons to excite the system. We observe that the generated localized surface plasmon modes are polarization-depended, causing chiral coupling between the quantum emitters and the plasmon optical modes. Based on the plasmon field intensity profiles, we show that directional exciton transport can be obtained when the light-matter interaction becomes adequately strong, leading the system towards the strong coupling regime.

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Source
http://dx.doi.org/10.1088/1361-648X/ac203fDOI Listing

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