PHYSICAL REVIEW A 71, 032311 共2005兲 Superconducting qubits coupled to nanoelectromechanical resonators: An architecture for solid-state quantum-information processing M. R. Geller1 and A. N. Cleland2 - Josephson effect - Document - PDFSEARCH.IO - Document Search Engine

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	PHYSICAL REVIEW A 71, 032311 共2005兲 Superconducting qubits coupled to nanoelectromechanical resonators: An architecture for solid-state quantum-information processing M. R. Geller1 and A. N. Cleland2 Add to Reading List Document Date: 2005-03-18 07:51:32 Open Document File Size: 272,39 KB Share Result on Facebook City Resonator / / Company Armour / Idc / / Country United States / / Currency pence / USD / / Facility University of Georgia / University of California / / IndustryTerm energy lifetime / energy-level spacing / energy scale / energy damping time / quantum-information processors / energy gap / low-energy dynamics / qubit energy-level separation / quantum-information processing / low-energy junction dynamics / energy eigenstates / thermal energy kBT / piezoelectric media / quantum-information-processing architecture / metal electrodes / energy splitting / energy width / energy decay width / energy level spacing / quantum-information processor / quantum computing / quantum-information-processing architecture consisting / energy / nanomechanical systems / / Organization University of Georgia / Athens / University of California / Santa Barbara / Department of Physics and Astronomy / Department of Physics / U.S. Securities and Exchange Commission / / Person Hamiltonian / / Position model / simple model / / Product Cowon D2+ Portable Audio Device / / ProvinceOrState California / Georgia / / Technology Dielectric / simulation / JJbased quantum-information processors / JJ-based quantum-information processor / / SocialTag Theoretical computer science Quantum mechanics Quantum electronics Phase qubit Josephson effect Resonator Qubit Resonance Quantum computer Physics