https://doi.org/10.1140/epjd/s10053-021-00053-3
Regular Article - Optical Phenomena and Photonics
The effect of quantum correction for the dielectric function on the optical properties of a plasmon–exciton–plasmon hybrid system
1
Department of Physics, College of Science, Shiraz University, 71454, Shiraz, Iran
2
Department of Computer Science and Mathematics, Nipissing Computational Physics Laboratory, Nipissing University, Ontario, North Bay, Canada
a
naser.zamani1987@gmail.com
b
nadgaran@shirazu.ac.ir
Received:
14
August
2020
Accepted:
12
January
2021
Published online:
22
January
2021
In this paper, the optical properties of two small silver metallic nanoparticles (sAgNPs) coupled to a quantum dot (QD) are studied. The interaction between sAgNP and QD is investigated theoretically using the compact density matrix method. In this paper, due to the small size of the AgNP, the dielectric function does not follow the classical models and quantum-size effects must be considered. The excitation of surface plasmons in sAgNP is observed using the finite element method. The main result of the current study shows that when AgNPs are small, the absorption spectrum profile of the QD is strongly affected due to the plasmon–exciton–plasmon interaction. The absorption spectrum profile of the QD shows an electromagnetically induced transparency with two peaks and a minimum in the transition frequency. Then, the near-field enhancement of the sAgNP, the field experienced by the QD, the exciton transition energy shift, and the Förster-enhanced broadening of the excitonic transition are also examined.
© The Author(s), under exclusive licence to EDP Sciences, SIF and Springer-Verlag GmbH Germany, part of Springer Nature 2021
