Symmetry Properties of Quantum Dynamical Entropy

• URL: http://arxiv.org/abs/2502.04442v1
• Date: Thu, 06 Feb 2025 19:00:02 GMT
• Title: Symmetry Properties of Quantum Dynamical Entropy
• Authors: Eric D. Schultz, Keiichiro Furuya, Laimei Nie,
• Abstract summary: We show that, while the cumulative AFL entropy generally saturates to the dimensional bound at late times for chaotic dynamics, this saturation value is distinctively lower when the partitions (measurements) respect the symmetries. Our findings highlight the complex relationship between the cumulative AFL entropy and symmetries, and suggest that caution is needed when interpreting it as an indicator of quantum chaos.
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• Abstract: We investigate the relation between the Alicki-Fannes-Lindblad (AFL) quantum dynamical entropy and quantum symmetries. We show that, while the cumulative AFL entropy generally saturates to the dimensional bound at late times for chaotic dynamics, this saturation value is distinctively lower when the partitions (measurements) respect the symmetries. We provide rigorous analysis to this lowered value in three cases: Abelian symmetries, anticommuting unitaries, and non-Abelian symmetries. We further support our analytical results with numerical simulations of the perturbed quantum cat maps. Our findings highlight the complex relationship between the cumulative AFL entropy and symmetries, and suggest that caution is needed when interpreting it as an indicator of quantum chaos.

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