The Intensity of the Plasmon-exciton of Three Spherical Metal Nanoparticles On the Semiconductor Quantum Dot Having Three External Fields

The influence of the plasmon of three spherical metal nanoparticles (MNPs) on the semiconductor quantum dot (SQD) having three external fields is analyzed. The density matrix equations are modified for the description of the optical properties of the SQD-MNPs nanosystem. We study theoretically the role of the plasmon-exciton dipole coupling in the SQD-MNPs nanosystem. We investigate the dependence of the plasmon-exciton dipole coupling of the SQD-MNPs nanosystem on the position of three spherical MNPs with respect to SQD as well as on the material parameters of the hybrid nanosystem. The direction and detunings of the three external fields play an important role in the characterization of the SQD-MNPs nanosystem.

Automated summary

The influence of three spherical metal nanoparticles on a semiconductor quantum dot with three external fields is analyzed. The role of plasmon-exciton dipole coupling in the nanosystem is studied and the dependence on the position of the nanoparticles and material parameters is investigated.