Quantum computing with magnetic atoms in optical lattices of reduced periodicity
نویسندگان
چکیده
We investigate the feasibility of combining Raman optical lattices with a quantum computing architecture based on lattice-confined magnetically interacting neutral atoms. A particular advantage of the standing Raman field lattices comes from reduced interatomic separations leading to increased interatomic interactions and improved multiqubit gate performance. Specifically, we analyze a J=3/2 Zeeman system placed in +− Raman fields which exhibit /4 periodicity. We find that the resulting controlled-NOT CNOT gate operations times are in the order of millisecond. We also investigate motional and magnetic-field induced decoherences specific to the proposed architecture.
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