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W2897445210 abstract "Quantum emitters interacting with two-dimensional photonic-crystal baths experience strong and anisotropic collective dissipation when they are spectrally tuned to 2D Van-Hove singularities. In this work, we show how to turn this dissipation into coherent dipole–dipole interactions with tunable range by breaking the lattice degeneracy at the Van-Hove point with a superlattice geometry. Using a coupled-mode description, we show that the origin of these interactions stems from the emergence of a qubit-photon bound state that inherits the anisotropic properties of the original dissipation and whose spatial decay can be tuned via the superlattice parameters or the detuning of the optical transition respect to the band-edges. Within that picture, we also calculate the emitter induced dynamics in an exact manner, bounding the parameter regimes where the dynamics lies within a Markovian description. As an application, we develop a four-qubit entanglement protocol exploiting the shape of the interactions. Finally, we provide a proof-of-principle example of a photonic crystal where such interactions can be obtained." @default.
W2897445210 created "2018-10-26" @default.
W2897445210 creator A5002280037 @default.
W2897445210 creator A5015960663 @default.
W2897445210 date "2018-12-20" @default.
W2897445210 modified "2023-10-14" @default.
W2897445210 title "Anisotropic Quantum Emitter Interactions in Two-Dimensional Photonic-Crystal Baths" @default.
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W2897445210 doi "https://doi.org/10.1021/acsphotonics.8b01455" @default.
W2897445210 hasPublicationYear "2018" @default.
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