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PHYSICAL REVIEW A 88, Efficient error models for fault-tolerant architectures and the Pauli twirling approximation Michael R. Geller and Zhongyuan Zhou Department of Physics and Astronomy, University of Ge
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Document Date: 2013-07-14 07:57:27

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City

London / /

Company

ZZ / XX / /

Country

United States / /

Facility

University of Georgia / Racah Institute of Physics / California Institute of Technology / Hebrew University / /

IndustryTerm

fault-tolerant error-correction protocol / primitive error-correction protocol / state preservation protocol / quantum computing platform / stabilizer operator / realistic quantum computing architectures / tensor products / /

NaturalFeature

Clifford channel / Pauli channel / /

Organization

California Institute of Technology / Hebrew University / Jerusalem / University of Georgia / Athens / US Army Research Office / American Physical Society / US Government / Zhongyuan Zhou Department of Physics and Astronomy / National Intelligence / US Office / U.S. Securities and Exchange Commission / Racah Institute of Physics / /

Person

S. Aaronson / J. Preskill / John Martinis / P. Aliferis / Austin Fowler / Em / Joydip Ghosh / Michael R. Geller / D. Aharonov / A. Kitaev / D. Gottesman / /

Position

Director / Representative / /

ProgrammingLanguage

E / K / T / /

ProvinceOrState

Georgia / /

PublishedMedium

Theory of Computing / /

Technology

primitive error-correction protocol / Bell state preservation protocol / tomography / A. Error-correction protocol / fault-tolerant error-correction protocol / following Bell state preservation protocol / simulation / /

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