Atefeh Mohammadzadeh scite author profile

We study the response of a semiconductor quantum dot-metal nanoparticle system to an external field E0 cos (ωt). The borders between Fano, double peaks, weak transition, strong transition, and bistability regions of the phase diagram move considerably as one regards the multipole effects. The exciton-induced transparency is an artifact of the dipole approximation. The absorption of the nanoparticle, the population inversion of the quantum dot, the upper and lower limits of intensity where bistability occurs, the characteristic time to reach the steady state, and other features of the hybrid system change due to the multipole effects. The phase diagrams corresponding to the fields parallel and perpendicular to the axis of system are quite distinguishable. Thus, both the intensity and the polarization of the incident field can be used to control the system. In particular, the incident polarization can be used to switch on and switch off the bistable behavior. For applications such as miniaturized bistable devices and nanosensors sensitive to variations of the dielectric constant of the surrounding medium, multipole effects must be considered.

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Optical response of a hybrid system composed of a quantum dot and a core–shell nanoparticle

Naeimi

Mohammadzadeh

Miri

2019

J. Opt. Soc. Am. B

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Resonance fluorescence of a hybrid semiconductor-quantum-dot–metal-nanoparticle system driven by a bichromatic field

Mohammadzadeh

Miri

2019

Phys. Rev. B

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Magnetic linear and circular dichroism of planar sets of hollow silver nanoparticles: engineering the spectra by hollow size

Mohammadzadeh

Miri

2016

J. Opt. Soc. Am. B

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