Linear semi-infinite programming approach for entanglement quantification
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2021
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We explore the dual problem of the convex roof construction by identifying it as a linear semi-infinite programming (LSIP) problem. Using the LSIP theory, we show the absence of a duality gap between primal and dual problems, even if the entanglement quantifier is not continuous, and prove that the set of optimal solutions is nonempty and bounded. In addition, we implement a central cutting-plane algorithm for LSIP to quantify entanglement between three qubits. The algorithm has global convergence property and gives lower bounds on the entanglement measure for nonoptimal feasible points. As an application, we use the algorithm for calculating the convex roof of the three-tangle and
π
-tangle measures for families of states with low and high ranks. Since the
π
-tangle measure quantifies the entanglement of W states, we apply the values of the two quantifiers to distinguish between the two different types of genuine three-qubit entanglement.
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CARRIJO, Thiago Mureebe; CARDOSO, Wesley Bueno; AVELAR, Ardiley Torres. Linear semi-infinite programming approach for entanglement quantification. Physical Review A, College Park, v. 104, e022413-1, 2021. DOI: 10.1103/PhysRevA.104.022413. Disponível em: https://journals.aps.org/pra/abstract/10.1103/PhysRevA.104.022413. Acesso em: 13 set. 2023.