PHYSICAL REVIEW A 87, High-fidelity controlled-σ Z gate for resonator-based superconducting quantum computers Joydip Ghosh,1,* Andrei Galiautdinov,1,2 Zhongyuan Zhou,1 Alexander N. Korotkov,2 John M. Mart - Flux qubit - Document - PDFSEARCH.IO

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	PHYSICAL REVIEW A 87, High-fidelity controlled-σ Z gate for resonator-based superconducting quantum computers Joydip Ghosh,1,* Andrei Galiautdinov,1,2 Zhongyuan Zhou,1 Alexander N. Korotkov,2 John M. Mart Add to Reading List Document Date: 2013-02-08 10:46:36 Open Document File Size: 575,25 KB Share Result on Facebook City Santa Barbara / / Country United States / / / Facility University of Georgia / University of California / / IndustryTerm energy eigenvalue / information processing / correction protocol / inner product / energy gap / tensor product / computing / quantum computing / multiqubit device / energy scale gb / energy / / Organization USA Department of Electrical Engineering / University of California / University of Georgia / Athens / Department of Physics and Astronomy / Department of Physics / U.S. Securities and Exchange Commission / University of California / Riverside / / Person Andrei Galiautdinov / Joydip Ghosh / / Position representative / / ProvinceOrState California / Georgia / / Technology four-qubit QVN processor / n-qubit QVN processor / correction protocol / 4 processor / A. QVN model The QVNn processor / microwave / quantum von Neumann processor / simulation / QVN processor / QVN4 processor / / SocialTag Applied mathematics Qubit Quantum computer Phase qubit Stabilizer code Flux qubit Quantum information science Theoretical computer science Quantum mechanics

PHYSICAL REVIEW A 87, High-fidelity controlled-σ Z gate for resonator-based superconducting quantum computers Joydip Ghosh,1,* Andrei Galiautdinov,1,2 Zhongyuan Zhou,1 Alexander N. Korotkov,2 John M. MartAdd to Reading List