Related papers: Evolution of multi-qubit correlations driven by mutual interactions

Evolution of multi-qubit correlations driven by mutual interactions

URL: http://arxiv.org/abs/2507.00692v1
Date: Tue, 01 Jul 2025 11:45:08 GMT
Title: Evolution of multi-qubit correlations driven by mutual interactions
Authors: Aleksandra Kwiatkowska, Waldemar Kłobus,
Abstract summary: We analyze the evolution of the correlation tensor elements of quantum systems composed of $frac12$-spins.<n>We show how a strong external field can play a stabilizing factor with respect to certain correlation characteristics.
Score: 49.1574468325115
License: http://creativecommons.org/licenses/by/4.0/
Abstract: A particularly useful tool for characterizing multi-qubit systems is the correlation tensor, providing an experimentally friendly and theoretically concise representation of quantum states. In this work, we analyze the evolution of the correlation tensor elements of quantum systems composed of $\frac12$-spins, generated by mutual interactions and the influence of the external field. We focus on two-body interactions in the form of anisotropic Heisenberg as well as antisymmetric exchange interaction models. The evolution of the system is visualized in the form of a trajectory in a suitable correlation space, which, depending on the system's frequencies, exhibits periodic or nonperiodic behavior. In the case of two $\frac12$-spins we study the stationary correlations for several classes of Hamiltonians, which allows a full characterization of the families of density matrices invariant under the evolution generated by the Hamiltonians. We discuss some common properties shared by the 2- and 3-qubit systems and show how a strong external field can play a stabilizing factor with respect to certain correlation characteristics.

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