Tightening the tripartite quantum memory assisted entropic uncertainty relation

• URL: http://arxiv.org/abs/2005.02109v2
• Date: Sun, 14 Jun 2020 16:24:00 GMT
• Title: Tightening the tripartite quantum memory assisted entropic uncertainty relation
• Authors: H. Dolatkhah, S. Haseli, S. Salimi, A. S. Khorashad
• Abstract summary: In quantum information theory, Shannon entropy has been used as an appropriate measure to express the uncertainty relation. One can extend the bipartite quantum memory assisted entropic uncertainty relation to tripartite quantum memory assisted uncertainty relation.
• Score: 0.0
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: The uncertainty principle determines the distinction between the classical and quantum worlds. This principle states that it is not possible to measure two incompatible observables with the desired accuracy simultaneously. In quantum information theory, Shannon entropy has been used as an appropriate measure to express the uncertainty relation. According to the applications of entropic uncertainty relation, studying and trying to improve the bound of this relation is of great importance. Uncertainty bound can be altered by considering an extra quantum system as the quantum memory $B$ which is correlated with the measured quantum system $A$. One can extend the bipartite quantum memory assisted entropic uncertainty relation to tripartite quantum memory assisted entropic uncertainty relation in which the memory is split into two parts. In this work, we obtain a lower bound for the tripartite quantum memory assisted entropic uncertainty relation. Our lower bound has two additional terms compared to the lower bound in [Phys. Rev. Lett. 103, 020402 (2009)] which depending on the conditional von Neumann entropy, the Holevo quantity and mutual information. It is shown that the bound obtained in this work is more tighter than other bounds. In addition, using our lower bound, a lower bound for the quantum secret key rate has been obtained. The lower bound is also used to obtain the states for which the strong subadditivity inequality and Koashi-Winter inequality is satisfied with equality.

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