Litcius/Paper detail

Complete complementarity relations for multipartite pure states

Marcos L W Basso, Jonas Maziero

2020Journal of Physics A Mathematical and Theoretical43 citationsDOIOpen Access PDF

Abstract

Abstract Complementarity relations for wave-particle duality are saturated only for pure, single-quanton, quantum states. For a completely incoherent state, it is known that wave and particle quantifiers can reach zero, and hence no information about the wave and particle aspects of the system can be obtained. This means that the information is being shared with other systems, and quantum correlations can be seen as responsible for the loss of purity of the quanton, provided that the quanton is part of a multipartite pure quantum system. In this paper, by exploring the purity of bi- and tri-partite pure quantum states, we show that it is possible to obtain complete complementarity relations. This procedure allows us to create a general framework for obtaining complete complementarity relations for a subsystem that belongs to an arbitrary multi-partite quantum system in a pure state. By some simple examples, we show that if the predictability measure is changed then the correlation measure must also be changed in order to obtain complete complementarity relations for pure cases.

Topics & Concepts

MultipartiteComplementarity (molecular biology)MathematicsPredictabilityQuantumStatistical physicsQuantum informationMeasure (data warehouse)Quantum systemDiscrete mathematicsQuantum statePure mathematicsQuantum discordQuantum operationSimple (philosophy)Wave–particle dualityQuantum mechanicsTheoretical physicsQuantum channelQuantum Mechanics and ApplicationsQuantum Information and CryptographyQuantum Mechanics and Non-Hermitian Physics