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Kang-Da W.♦, Thomas T.♦, Guo-Yong X.♦, Chuan-Feng L.♦, Guang-Can G.♦, Plenio M.♦, Streltsov A.♦, Quantum coherence and state conversion: theory and experiment,
NPJ Quantum Information, ISSN: 2056-6387, DOI: 10.1038/s41534-020-0250-z, Vol.6, No.22, pp.1-9, 2020Abstract: The resource theory of coherence studies the operational value of superpositions in quantum technologies. A key question in this theory concerns the efficiency of manipulation and interconversion of the resource. Here, we solve this question completely for qubit states by determining the optimal probabilities for mixed-state conversions via stochastic incoherent operations. Extending the discussion to distributed scenarios, we introduce and address the task of assisted incoherent state conversion, where the process is enhanced by making use of correlations with a second party. Building on these results, we demonstrate experimentally that the optimal state-conversion probabilities can be achieved in a linear optics setup. This paves the way towards real world applications of coherence transformations in current quantum technologies. Affiliations:
Kang-Da W. | - | other affiliation | Thomas T. | - | other affiliation | Guo-Yong X. | - | other affiliation | Chuan-Feng L. | - | other affiliation | Guang-Can G. | - | other affiliation | Plenio M. | - | other affiliation | Streltsov A. | - | other affiliation |
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Streltsov A.♦, Gerardo A.♦, Plenio M.♦, Colloquium: Quantum coherence as a resource,
Reviews of Modern Physics, ISSN: 0034-6861, DOI: 10.1103/RevModPhys.89.041003, Vol.89, pp.041003-1-041003-34, 2017Abstract: The coherent superposition of states, in combination with the quantization of observables, represents one of the most fundamental features that mark the departure of quantum mechanics from the classical realm. Quantum coherence in many-body systems embodies the essence of entanglement and is an essential ingredient for a plethora of physical phenomena in quantum optics, quantum information, solid state physics, and nanoscale thermodynamics. In recent years, research on the presence and functional role of quantum coherence in biological systems has also attracted considerable interest. Despite the fundamental importance of quantum coherence, the development of a rigorous theory of quantum coherence as a physical resource has been initiated only recently. This Colloquium discusses and reviews the development of this rapidly growing research field that encompasses the characterization, quantification, manipulation, dynamical evolution, and operational application of quantum coherence. Affiliations:
Streltsov A. | - | other affiliation | Gerardo A. | - | other affiliation | Plenio M. | - | other affiliation |
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