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W2004069013 abstract "We theoretically study the dissipative dynamics of a quantum emitter placed near the planar surface of a metal supporting surface-plasmon excitations. The emitter-metal coupling regime can be tuned by varying some control parameters such as the qubit-surface separation and/or the detuning between characteristic frequencies. By using a Green's-function approach jointly with a time-convolutionless master equation, we analyze the non-Markovian dissipative features on the qubit time evolution in two cases of interest: (i) an undriven qubit initially prepared in its excited state and (ii) the evolution toward a steady state for a system driven by a laser field. For weak to moderate qubit-metal coupling strength, and on time scales large compared to the surface plasmon oscillation time, a Markovian approximation for the master-equation results to be adequate to describe the qubit main optical properties: surface enhancements of rate emission, optical spectra, and time-dependent photon-photon correlation functions. The qubit decay shows a crossover passing from being purely dissipative for small qubit-surface distances to plasmon emission for larger separations." @default.
W2004069013 created "2016-06-24" @default.
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W2004069013 date "2010-09-30" @default.
W2004069013 modified "2023-09-27" @default.
W2004069013 title "Dissipative dynamics of a solid-state qubit coupled to surface plasmons: From non-Markov to Markov regimes" @default.
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W2004069013 doi "https://doi.org/10.1103/physrevb.82.115334" @default.
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