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Quantifying coherence with respect to general quantum measurements

Felix Bischof, Hermann Kampermann, Dagmar Bruß

2021Physical review. A/Physical review, A50 citationsDOIOpen Access PDF

Abstract

Coherence is a cornerstone of quantum theory and a prerequisite for the advantage of quantum technologies. In recent work, the notion of coherence with respect to a general quantum measurement, i.e., positive operator-valued measure (POVM), was introduced and embedded into a resource-theoretic framework that generalizes the standard resource theory of coherence. In particular, POVM-incoherent (free) states and operations were established. In this work, we explore features of this framework which arise due to the rich structure of POVMs compared to projective measurements. Moreover, we introduce a rigorous, probabilisitic framework for POVM-based coherence measures and free operations. This leads to the introduction of strongly monotonic resource measures that neatly generalize well-known standard coherence measures. Finally, we show that the relative entropy of POVM coherence is equal to the cryptographic randomness gain, providing an important operational meaning to the concept of coherence with respect to a general measurement.

Topics & Concepts

POVMCoherence (philosophical gambling strategy)RandomnessQuantumMeasure (data warehouse)Kullback–Leibler divergenceCoherence theoryComputer scienceStatistical physicsTheoretical computer scienceMathematicsQuantum operationQuantum mechanicsOpen quantum systemPhysicsStatisticsData miningArtificial intelligenceSuperconductivityCoherence lengthQuantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum Computing Algorithms and Architecture
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