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Abstract The exciton–phonon coupling between an optically driven quantum dot (QD) and a mechanical resonator can be described by Jaynes–Cummings model under a certain condition, revealing phonon absorption and emission.… Click to show full abstract
Abstract The exciton–phonon coupling between an optically driven quantum dot (QD) and a mechanical resonator can be described by Jaynes–Cummings model under a certain condition, revealing phonon absorption and emission. When two optically driven QDs share a common phonon mode, it shows the phonon-mediated coupling between the QDs. Based on the effective master equation for the reduced density matrix of the two QDs, the temporal evolution of each state and the concurrence (quantum entanglement) between them are studied. The results suggest that the stationary concurrence depends strongly on the resonator temperature. The non-negligible entanglement in the hybrid system is advantaged to develop solid-state quantum information processing.
Journal Title: Optics Communications
Year Published: 2017
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