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Speed limits on correlations in bipartite quantum systems

Quantum Physics 2023-05-31 v2

Abstract

Quantum speed limit is bound on the minimum time a quantum system requires to evolve from an initial state to final state under a given dynamical process. It sheds light on how fast a desired state transformation can take place which is pertinent for design and control of quantum technologies. In this paper, we derive speed limits on correlations such as entanglement, Bell-CHSH correlation, and quantum mutual information of quantum systems evolving under dynamical processes. Our main result is speed limit on an entanglement monotone called negativity which holds for arbitrary dimensional bipartite quantum systems and processes. Another entanglement monotone which we consider is the concurrence. To illustrate efficacy of our speed limits, we analytically and numerically compute the speed limits on the negativity, concurrence, and Bell-CHSH correlation for various quantum processes of practical interest. We are able to show that for practical examples we have considered, some of the speed limits we derived are actually attainable and hence these bounds can be considered to be tight.

Keywords

Cite

@article{arxiv.2207.05645,
  title  = {Speed limits on correlations in bipartite quantum systems},
  author = {Vivek Pandey and Divyansh Shrimali and Brij Mohan and Siddhartha Das and Arun Kumar Pati},
  journal= {arXiv preprint arXiv:2207.05645},
  year   = {2023}
}

Comments

18 pages, 11 figures, published in Physical Review A

R2 v1 2026-06-25T00:51:17.159Z