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Entanglement monotones from complementarity relations

Marcos L. W. Basso, Jonas Maziero

2022Journal of Physics A Mathematical and Theoretical20 citationsDOIOpen Access PDF

Abstract

Abstract Bohr’s complementarity and Schrödinger’s entanglement are two prominent physical characters of quantum systems. In this article, we formally connect them. It is known that complementarity relations for wave-particle duality are saturated only for pure, single-quanton, quantum states. For mixed states, the wave-particle quantifiers never saturate a complementarity relation and can even reach zero for a maximally mixed state. To fully characterize a quanton, it is not enough to consider its wave-particle aspect; we have also to regard its quantum correlations with other systems. Here we prove that for any complete complementarity relation involving predictability and visibility measures that satisfy the criteria established in the literature, the corresponding quantum correlations are entanglement monotones. Therefore, we formally connect entanglement monotones with complementarity relations without appealing to a particular measure.

Topics & Concepts

Complementarity (molecular biology)Quantum entanglementComputer scienceQuantum mechanicsPhysicsQuantumGeneticsBiologyQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum Mechanics and Applications
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