Abstract
Abstract
Quantum coherence is a central ingredient in quantum physics with several theoretical and technological ramifications. We consider a figure of merit encoding the information on how the coherence generated on average by a quantum gate is affected by unitary errors (coherent noise sources) in the form of rotation-angle and rotation-axis errors. We provide numerical evidences that such information is well captured by the statistics of local energy measurements on the output states of the gate. These findings are then corroborated by experimental data taken in a quantum optics setting.
Funder
Leverhulme Trust
European Commission
Department for the Economy Northern Ireland
Deutsche Forschungsgemeinschaft
Royal Society
Engineering and Physical Sciences Research Council
Blanceflor Foundation
H2020 Future and Emerging Technologies
Subject
Electrical and Electronic Engineering,Physics and Astronomy (miscellaneous),Materials Science (miscellaneous),Atomic and Molecular Physics, and Optics
Reference57 articles.
1. An introduction to quantum error correction and fault-tolerant quantum computation, in quantum information science and its contributions to mathematics;Gottesman,2010
2. Quantum computers;Ladd;Nature,2010
3. Colloquium: quantum coherence as a resource;Streltsov;Rev. Mod. Phys.,2017
4. Quantifying coherence;Baumgratz;Phys. Rev. Lett.,2014
5. Dephasing-assisted transport: quantum networks and biomolecules;Plenio;New J. Phys.,2008
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