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Scalable register initialization for quantum computing in an optical lattice

Quantum Physics 2009-11-10 v1 Condensed Matter

Abstract

The Mott insulator state created by loading an atomic Bose-Einstein condensate (BEC) into an optical lattice may be used as a means to prepare a register of atomic qubits in a quantum computer. Such architecture requires a lattice commensurately filled with atoms, which corresponds to the insulator state only in the limit of zero inter-well tunneling. We show that a lattice with spatial inhomogeneity created by a quadratic magnetic trapping potential can be used to isolate a subspace in the center which is impervious to hole-hoping. Components of the wavefunction with more than one atom in any well can be projected out by selective measurement on a molecular photo-associative transition. Maintaining the molecular coupling induces a quantum Zeno effect that can sustain a commensurately filled register for the duration of a quantum computation.

Cite

@article{arxiv.quant-ph/0312069,
  title  = {Scalable register initialization for quantum computing in an optical lattice},
  author = {Gavin K. Brennen and Guido Pupillo and Ana Maria Rey and Charles W. Clark and Carl J. Williams},
  journal= {arXiv preprint arXiv:quant-ph/0312069},
  year   = {2009}
}

Comments

5 pages, 2 figures