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Paper detail

Dissipation-driven generation of two-qubit entanglement mediated by plasmonic waveguides

We study the generation of entanglement between two distant qubits mediated by the surface plasmons of a metallic waveguide. We show that a V-shaped channel milled in a flat metallic surface is much more efficient for this purpose than a metallic cylinder. The role of the misalignments of the dipole moments of the qubits, an aspect of great importance for experimental implementations, is also studied. A careful analysis of the quantum-dynamics of the system by means of a master equation shows that two-qubit entanglement generation is essentially due to the dissipative part of the effective qubit-qubit coupling provided by the surface plasmons. The influence of a coherent external pumping, needed to achieve a steady state entanglement, is discussed. Finally, we pay attention to the question of how to get information experimentally on the degree of entanglement achieved in the system.

preprint2011arXivOpen access
D. Martín-CanoA. González-TudelaL. Martín-MorenoF. J. García-VidalC. TejedorE. Moreno
cond-mat.mes-hall
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D. Martín-CanoA. González-TudelaL. Martín-MorenoF. J. García-VidalC. TejedorE. Moreno

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