Upper Bounds on the Distillable Randomness of Bipartite Quantum States

• URL: http://arxiv.org/abs/2212.09073v1
• Date: Sun, 18 Dec 2022 12:06:25 GMT
• Title: Upper Bounds on the Distillable Randomness of Bipartite Quantum States
• Authors: Ludovico Lami, Bartosz Regula, Xin Wang, and Mark M. Wilde
• Abstract summary: distillable randomness of a bipartite quantum state is an information-theoretic quantity. We prove measures of classical correlations and prove a number of their properties. We then further bound these measures from above by some that are efficiently computable by means of semi-definite programming.
• Score: 15.208790082352351
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: The distillable randomness of a bipartite quantum state is an information-theoretic quantity equal to the largest net rate at which shared randomness can be distilled from the state by means of local operations and classical communication. This quantity has been widely used as a measure of classical correlations, and one version of it is equal to the regularized Holevo information of the ensemble that results from measuring one share of the state. However, due to the regularization, the distillable randomness is difficult to compute in general. To address this problem, we define measures of classical correlations and prove a number of their properties, most importantly that they serve as upper bounds on the distillable randomness of an arbitrary bipartite state. We then further bound these measures from above by some that are efficiently computable by means of semi-definite programming, we evaluate one of them for the example of an isotropic state, and we remark on the relation to quantities previously proposed in the literature.

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