Quantum Computation in Solid State Systems discusses experimental implementation of quantum computing for information processing devices; in particular observations of quantum behavior in several solid state systems are presented. The complementary theoretical contributions provide models of minimizing decoherence in the different systems. Most recent theoretical and experimental results on macroscopic quantum coherence of mesoscopic systems, as well as the realization of solid-state qubits and quantum gates are discussed. Particular attention is given to coherence effects in Josephson devices. Other solid state systems---including quantum dots, optical, ion, and spin devices---are also discussed.7.1(b), where we have plotted the real impedance Re[Z] of the bias circuit ( dashed line), and the Q factor of the ... phase dynamics at high frequency (Q ao 1) , crossing over to underdamped phase dynamics at low frequency (Q al 1). ... us to continuously tune the critical current, I0, from its maximum value to zero by applying a magnetic field perpendicular to the loop. ... between the leads and the junction, which we have not measured V b Rb 1 m AWG x500 300K V I¼40dB T Va#39; Counteranbsp;...

Title | : | Quantum Computing in Solid State Systems |

Author | : | Berardo Ruggiero, Per Delsing, Carmine Granata, Yuri A. Pashkin, P. Silvestrini |

Publisher | : | Springer Science & Business Media - 2006-05-30 |

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