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Influence of Gold Nano-Bipyramid Dimensions on Strong Coupling with Excitons of Monolayer MoS. | LitMetric

Influence of Gold Nano-Bipyramid Dimensions on Strong Coupling with Excitons of Monolayer MoS.

ACS Appl Mater Interfaces

School of Physics and AMBER, Trinity College Dublin, College Green, Dublin 2, Ireland.

Published: October 2020

AI Article Synopsis

  • Rabi splitting between gold nano-bipyramids and A excitons of monolayer MoS has been observed at room temperature, showcasing the interaction between plasmonic and excitonic states.
  • The study explores how the dimensions of the nano-bipyramid—such as length, aspect ratio, and tip radius—affect the strength of this coupling, with sharper tips leading to greater Rabi splitting.
  • Notably, larger bipyramids exhibit higher Rabi splitting (rising from ∼55 meV for 70 nm to ∼80 meV for 100 nm), indicating that size impacts the coupling without necessarily increasing the number of excitons involved.

Article Abstract

Rabi splitting between the longitudinal plasmon of a gold nano-bipyramid and the A exciton of monolayer MoS is observed at room temperature. The dependence of the Rabi splitting on the physical dimensions of the nano-bipyramid is reported. The impact of bipyramid length, aspect ratio, and tip radius on the coupling strength is investigated. The mode volume of the nanoresonator is significantly reduced because of the sharp tips of the bipyramid, and the Rabi splitting increases with tip sharpness. The results also reveal that greater Rabi splitting is observed for larger bipyramids, contrasting with results previously reported for different nanoresonator shapes. This shows, for the first time, how the magnitude of the splitting has a different response for particular nanoresonators when tuning the size, without increasing the number of excitons coupled into the system. The Rabi splitting, at zero energy detuning between plasmon and A exciton, increases from ∼55 meV with a 70 nm-long bipyramid to ∼80 meV with a 100 nm-long bipyramid. The increase in coupling strength with size arises because of increasing confinement of the field enhancement at the bipyramid tip.

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Source
http://dx.doi.org/10.1021/acsami.0c09261DOI Listing

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