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Dissipative engineering of Gaussian entangled states in harmonic lattices with a single-site squeezed reservoir
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Dissipative engineering of Gaussian entangled states in harmonic lattices with a single-site squeezed reservoir
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We study the dissipative preparation of many-body entangled Gaussian states in bosonic lattice models which could be relevant for quantum technology applications. We assume minimal resources, represented by systems described by particle-conserving quadratic Hamiltonians, with a single localized squeezed reservoir. We show that in this way it is possible to prepare, in the steady state, the wide class of pure states which can be generated by applying a generic passive Gaussian transformation on a set of equally squeezed modes. This includes non-trivial multipartite entangled states such as cluster states suitable for measurement-based quantum computation.
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