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Phase qubit
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21	QUANTUM COMPUTING WITH SUPERCONDUCTORS I: ARCHITECTURES Michael R. Geller∗ and Emily J. Pritchett† Department of Physics, University of Georgia, Athens, Georgia 30602, USA Andrew T. Sornborger‡ Department of Mathem Add to Reading List Source URL: www.physast.uga.edu Language: English - Date: 2009-06-11 18:26:13 Quantum mechanics Theoretical computer science Quantum electronics Flux qubit Qubit Phase qubit Josephson effect Quantum computer Charge qubit Physics Quantum information science Superconductivity
22	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 Source URL: www.physast.uga.edu Language: English - Date: 2013-04-02 01:31:34 Applied mathematics Qubit Quantum computer Phase qubit Stabilizer code Flux qubit Quantum information science Theoretical computer science Quantum mechanics
23	PHYSICAL REVIEW B 82, 104522 共2010兲 Analysis of a tunable coupler for superconducting phase qubits Ricardo A. Pinto and Alexander N. Korotkov* Department of Electrical Engineering, University of California, Riversid Add to Reading List Source URL: www.physast.uga.edu Language: English - Date: 2010-12-15 11:27:20 Models of computation Computational complexity theory Information theory Quantum computer Quantum cryptography Quantum gate Quantum circuit Relaxation Qubit Theoretical computer science Quantum information science Applied mathematics
24	Quantum Inf Process:1349–1357 DOIs11128Controlled-NOT logic gate for phase qubits based on conditional spectroscopy Joydip Ghosh · Michael R. Geller Add to Reading List Source URL: www.physast.uga.edu Language: English - Date: 2013-01-06 17:27:02 Physics Quantum computer Controlled NOT gate Quantum gate Qubit Flux qubit Phase qubit Nuclear magnetic resonance Loss–DiVincenzo quantum computer Quantum information science Theoretical computer science Quantum mechanics
25	Emulation of a Quantum Spin with a Superconducting Phase Qudit Matthew Neeley, et al. Science 325, ); DOI: scienceThe following resources related to this article are available online at Add to Reading List Source URL: www.physast.uga.edu Language: English - Date: 2009-08-14 07:28:34 Quantum field theory Quantum information science Quantum mechanics Spin-statistics theorem Spin Nuclear magnetic resonance Quantum computer Qubit George Coyne Physics Theoretical computer science Applied mathematics
26	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 Source URL: www.physast.uga.edu Language: English - Date: 2005-03-18 07:51:32 Theoretical computer science Quantum mechanics Quantum electronics Phase qubit Josephson effect Resonator Qubit Resonance Quantum computer Physics Superconductivity Quantum information science
27	Quantum mechanical resonators sensed by superconducting qubits Add to Reading List Source URL: www.phy.cuhk.edu.hk Language: English - Date: 2011-12-08 22:13:11 Qubit Phase qubit Resonator Quantum circuit Phonon Mechanical resonance Resonance Quantum machine Flux qubit Physics Quantum information science Quantum mechanics
28	Photon Factory Activity Report 2004 #22 Part BAtomic and Molecular Science 20A/2003G173 Quantum phase control using pulsed Stark electric field Add to Reading List Source URL: pfwww.kek.jp Language: English - Date: 2010-01-05 10:31:34 Spectroscopy Quantum information science Theoretical computer science Atoms Rydberg atom Quantum computer Quantum dot Stark effect Qubit Physics Chemistry Atomic physics
29	Quantum optical and coherent quantum phase slip effects in superconducting circuits Add to Reading List Source URL: www.phy.cuhk.edu.hk Language: English - Date: 2011-12-08 22:13:10 Superconductivity Optics Quantum electronics Sensors Qubit Quantum computer Quantum optics Josephson effect Photon Physics Theoretical computer science Quantum information science
30	RAPID COMMUNICATIONS PHYSICAL REVIEW B 83, REfficient controlled-phase gate for single-spin qubits in quantum dots T. Meunier,1,2 V. E. Calado,1 and L. M. K. Vandersypen1 Add to Reading List Source URL: vandersypenlab.tudelft.nl Language: English - Date: 2012-07-20 03:50:41 Quantum mechanics Qubit Loss–DiVincenzo quantum computer Quantum gate Quantum computer Quantum dot Quantum Fourier transform Spin Quantum information science Theoretical computer science Physics