@article{Imamoglu1999Quant-5261,
  year={1999},
  doi={10.1103/PhysRevLett.83.4204},
  title={Quantum information processing using quantum dot spins and cavity-QED},
  number={20},
  volume={83},
  journal={Physical Review Letters},
  pages={4204--4207},
  author={Imamoglu, Atac and Awschalom, David D. and Burkard, Guido and DiVincenzo, David P. and Loss, Daniel and Sherwin, Mark S. and Small, A.}
}

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    <dc:creator>Loss, Daniel</dc:creator>
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    <dcterms:bibliographicCitation>First publ. in: arXiv:quant-ph/9904096  [cond-mat.mes-hall], also publ. in: Physical Review Letters 83 (1999), 20, pp. 4204 - 4207</dcterms:bibliographicCitation>
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    <dc:date rdf:datatype="http://www.w3.org/2001/XMLSchema#dateTime">2011-03-24T14:54:26Z</dc:date>
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    <dc:contributor>Small, A.</dc:contributor>
    <dc:contributor>Sherwin, Mark S.</dc:contributor>
    <dc:contributor>DiVincenzo, David P.</dc:contributor>
    <dc:creator>DiVincenzo, David P.</dc:creator>
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    <dcterms:title>Quantum information processing using quantum dot spins and cavity-QED</dcterms:title>
    <dc:creator>Small, A.</dc:creator>
    <dc:rights>terms-of-use</dc:rights>
    <dc:creator>Awschalom, David D.</dc:creator>
    <dc:creator>Sherwin, Mark S.</dc:creator>
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    <dc:creator>Burkard, Guido</dc:creator>
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    <dc:contributor>Loss, Daniel</dc:contributor>
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    <dcterms:issued>1999</dcterms:issued>
    <dc:contributor>Awschalom, David D.</dc:contributor>
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    <dcterms:abstract xml:lang="eng">The electronic spin degrees of freedom in semiconductors typically have decoherence times that are several orders of magnitude longer than other relevant timescales. A solid-state quantum computer based on localized electron spins as qubits is therefore of potential interest. Here, a scheme that realizes controlled interactions between two distant quantum dot spins is proposed. The effective long-range interaction is mediated by the vacuum field of a high finesse microcavity. By using conduction-band-hole Raman transitions induced by classical laser fields and the cavity-mode, parallel controlled-not operations and arbitrary single qubit rotations can be realized. Optical techniques can also be used to measure the spin-state of each quantum dot.</dcterms:abstract>
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