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Landau-Zener Transitions in an Adiabatic Quantum Computer

Mesoscale and Nanoscale Physics 2013-05-29 v1 Superconductivity Quantum Physics
Authors: J. Johansson , M. H. S. Amin , A. J. Berkley , P. Bunyk , V. Choi , R. Harris , M. W. Johnson , T. M. Lanting , Seth Lloyd , G. Rose
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Abstract

We report an experimental measurement of Landau-Zener transitions on an individual flux qubit within a multi-qubit superconducting chip designed for adiabatic quantum computation. The method used isolates a single qubit, tunes its tunneling amplitude Delta into the limit where Delta is much less than both the temperature T and the decoherence-induced energy level broadening, and forces it to undergo a Landau-Zener transition. We find that the behavior of the qubit agrees to a high degree of accuracy with theoretical predictions for Landau-Zener transition probabilities for a double-well quantum system coupled to 1/f magnetic flux noise.

Keywords

adiabatic quantum mechanics superconducting qubits quantum phase transition

Cite

@article{arxiv.0807.0797,
  title  = {Landau-Zener Transitions in an Adiabatic Quantum Computer},
  author = {J. Johansson and M. H. S. Amin and A. J. Berkley and P. Bunyk and V. Choi and R. Harris and M. W. Johnson and T. M. Lanting and Seth Lloyd and G. Rose},
  journal= {arXiv preprint arXiv:0807.0797},
  year   = {2013}
}

Comments

4 pages, 4 figures

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