Zander, ClaudiaPlastino, Angel Ricardo2018-08-312018-08-312018-06-18Zander, C. & Plastino, A.R. 2018, 'Revisiting entanglement within the Bohmian approach to quantum mechanics', Entropy, vol. 20, art. no. 473, pp. 1-19.1099-430010.3390/e2060473http://hdl.handle.net/2263/66418We revisit the concept of entanglement within the Bohmian approach to quantum mechanics. Inspired by Bohmian dynamics, we introduce two partial measures for the amount of entanglement corresponding to a pure state of a pair of quantum particles. One of these measures is associated with the statistical correlations exhibited by the joint probability density of the two Bohmian particles in configuration space. The other partial measure corresponds to the correlations associated with the phase of the joint wave function, and describes the non-separability of the Bohmian velocity field. The sum of these two components is equal to the total entanglement of the joint quantum state, as measured by the linear entropy of the single-particle reduced density matrix.en© 2018 by the authors; licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution license (http://creativecommons.org/licenses/by/4.0/).Bohmian dynamicsEntanglement indicatorsLinear entropyDerivationTrajectoriesDissipative systemsField equationArticle