A theoretical scheme to generate multipartite entangled states in a Josephson planar-designed architecture is reported. This scheme improves the one published by Migliore et al. Phys. Rev. B 74, 104503 2006 since it speeds up the generation of W entangled states in an MN array of inductively coupled Josephson flux qubits by reducing the number of necessary steps. In addition, the same protocol is shown to be able to transfer the W state from one row to the other.
Diffusion and transfer of entanglement in an array of inductively coupled flux qubits
Migliore Rosanna;
2007
Abstract
A theoretical scheme to generate multipartite entangled states in a Josephson planar-designed architecture is reported. This scheme improves the one published by Migliore et al. Phys. Rev. B 74, 104503 2006 since it speeds up the generation of W entangled states in an MN array of inductively coupled Josephson flux qubits by reducing the number of necessary steps. In addition, the same protocol is shown to be able to transfer the W state from one row to the other.File in questo prodotto:
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