We simulate the dynamics of a quantum dot coupled to the single resonating mode of a metal nanopar- ticle. Systems like this are known as metamolecules. In this study, we consider a time-dependent driving field acting onto the metamolecule. We use the Heisenberg equations of motion for the entire system, while representing the resonating mode in Wigner phase space. A time-depend- ent basis is adopted for the quantum dot. We integrate the dynamics of the metamolecule for a range of coupling strengths between the quantum dot and the driving field, while restricting the coupling between the quantum dot and the resonant mode to weak values. By monitoring the aver- age of the time variation in the energy of the metamolecule model, as well as the coherence and the population dif- ference in the quantum dot, we observe distinct nonlinear behavior in the case of strong coupling to the driving field.
Quantum dynamics of a plasmonic metamolecule with a time-dependent driving
SERGI, ALESSANDRO
2015-01-01
Abstract
We simulate the dynamics of a quantum dot coupled to the single resonating mode of a metal nanopar- ticle. Systems like this are known as metamolecules. In this study, we consider a time-dependent driving field acting onto the metamolecule. We use the Heisenberg equations of motion for the entire system, while representing the resonating mode in Wigner phase space. A time-depend- ent basis is adopted for the quantum dot. We integrate the dynamics of the metamolecule for a range of coupling strengths between the quantum dot and the driving field, while restricting the coupling between the quantum dot and the resonant mode to weak values. By monitoring the aver- age of the time variation in the energy of the metamolecule model, as well as the coherence and the population dif- ference in the quantum dot, we observe distinct nonlinear behavior in the case of strong coupling to the driving field.Pubblicazioni consigliate
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