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Titulos:
Physical Review Letters.
Lugar de Edición:
New York, USA : The American Physical Society, [ 1958-
Editor:
Fecha de Edición:
Notas #:
Se mencionan solamente el 1er. artículo de esta publicación + abstract.-; Scalable Fault-Tolerant Quantum Computation in Decoherence-Free Subspaces Zheng-Wei Zhou,1 Bo Yu,1 Xingxiang Zhou,2 Marc J. Feldman,2 and Guang-Can Guo1.- 1Key Laboratory of Quantum Information, University of Science and Technology of China, Hefei 230026, People's Republic of China 2Superconducting Digital Electronics Laboratory, Electrical and Computer Engineering Department, University of Rochester, Rochester, New York 14627, USA.- We investigate how to concatenate different decoherence-free subspaces to realize scalable universal fault-tolerant quantum computation. Based on tunable XXZ interactions, we present an architecture for scalable quantum computers which can fault-tolerantly perform universal quantum computation by manipulating only a single type of parameter. By using the concept of interaction-free subspaces, we eliminate the need to tune the couplings between logical qubits, which further reduces the technical difficulties for implementing quantum computation.
Palabras clave:
Physical
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Leader:
nas#
Campo 008:
070814c20059999nyuuu#p#######0####|und#d
Campo 245:
10^aPhysical Review Letters.
Campo 246:
Campo 260:
##^aNew York, USA : The American Physical Society, [ 1958-
Campo 300:
##^b28,5 cm. graf. (algunas col.)-caratula.
Campo 300:
##^c28,5 cm.
Campo 500:
##^aSe mencionan solamente el 1er. artículo de esta publicación + abstract.-
Campo 500:
##^aScalable Fault-Tolerant Quantum Computation in Decoherence-Free Subspaces Zheng-Wei Zhou,1 Bo Yu,1 Xingxiang Zhou,2 Marc J. Feldman,2 and Guang-Can Guo1.- 1Key Laboratory of Quantum Information, University of Science and Technology of China, Hefei 230026, People's Republic of China 2Superconducting Digital Electronics Laboratory, Electrical and Computer Engineering Department, University of Rochester, Rochester, New York 14627, USA.- We investigate how to concatenate different decoherence-free subspaces to realize scalable universal fault-tolerant quantum computation. Based on tunable XXZ interactions, we present an architecture for scalable quantum computers which can fault-tolerantly perform universal quantum computation by manipulating only a single type of parameter. By using the concept of interaction-free subspaces, we eliminate the need to tune the couplings between logical qubits, which further reduces the technical difficulties for implementing quantum computation.
Campo 650:
#7^aPhysical^xPhysical-Astrophysics -.Atomic,Molecular, and Optical Physics -.Biological Physics -.Chemical Physics -.Condesed Matter Physics -.Fluidos Dynamics -.Laser Science -.Materials Physics -.Nuclear Physics-Particles and Fields -.Physics of Beams -.Plasma Physics -.Polymer Physics -.Foundations of Quantum Mechanics -.Quantum Informations.
Campo 710:
2#^aThe American Physical Society.
Campo 856:
40^uhttp://prl.aps.org
Proveniencia:
##^aUniversidad Nacional de San Luis - Sistema de Bibliotecas
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Institucion:
Universidad Nacional de San Luis
Dependencia:
Sistema de Bibliotecas - Colección MARC21

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