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Preparation of Decoherence Free Cluster States with Optical Superlattices

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arxiv 0811.3049 v2 pith:YUHJKHUB submitted 2008-11-19 quant-ph

Preparation of Decoherence Free Cluster States with Optical Superlattices

classification quant-ph
keywords statesclusterqubitdecoherencefreeinterinteractionsintra
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We present a protocol to prepare decoherence free cluster states using ultracold atoms loaded in a two dimensional superlattice. The superlattice geometry leads to an array of 2*2 plaquettes, each of them holding four spin-1/2 particles that can be used for encoding a single logical qubit in the two-fold singlet subspace, insensitive to uniform magnetic field fluctuations in any direction. Dynamical manipulation of the supperlattice yields distinct inter and intra plaquette interactions and permits to realize one qubit and two qubit gates with high fidelity, leading to the generation of universal cluster states for measurement based quantum computation. Our proposal based on inter and intra plaquette interactions also opens the path to study polymerized Hamiltonians which support ground states describing arbitrary quantum circuits.

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