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Entanglement asymmetry in periodically driven quantum systems
by Tista Banerjee, Suchetan Das and Krishnendu Sengupta
Submission summary
| Authors (as registered SciPost users): | Krishnendu Sengupta |
| Submission information | |
|---|---|
| Preprint Link: | scipost_202412_00038v3 (pdf) |
| Date accepted: | July 7, 2025 |
| Date submitted: | June 12, 2025, 12:52 p.m. |
| Submitted by: | Krishnendu Sengupta |
| Submitted to: | SciPost Physics |
| Ontological classification | |
|---|---|
| Academic field: | Physics |
| Specialties: |
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| Approach: | Theoretical |
Abstract
We study the dynamics of entanglement asymmetry in periodically driven quantum systems. Using a periodically driven XY chain as a model for a driven integrable quantum system, we provide semi-analytic results for the behavior of the dynamics of the entanglement asymmetry, $\Delta S$, as a function of the drive frequency. Our analysis identifies special drive frequencies at which the driven XY chain exhibits dynamic symmetry restoration and displays quantum Mpemba effect over a long timescale; we identify an emergent approximate symmetry in its Floquet Hamiltonian which plays a crucial role for realization of both these phenomena. We follow these results by numerical computation of $\Delta S$ for the non-integrable driven Rydberg atom chain and obtain similar emergent-symmetry-induced symmetry restoration and quantum Mpemba effect in the prethermal regime for such a system. Finally, we provide an exact analytic computation of the entanglement asymmetry for a periodically driven conformal field theory (CFT) on a strip. Such a driven CFT, depending on the drive amplitude and frequency, exhibits two distinct phases, heating and non-heating, that are separated by a critical line. Our results show that for $m$ cycles of a periodic drive with time period $T$, $\Delta S \sim \ln mT$ [$\ln (\ln mT)$] in the heating phase [on the critical line] for a generic CFT; in contrast, in the non-heating phase, $\Delta S$ displays small amplitude oscillations around it's initial value as a function of $mT$. We provide a phase diagram for the behavior of $\Delta S$ for such driven CFTs as a function of the drive frequency and amplitude
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Author comments upon resubmission
We resubmit with our response to the referee. We have made some changes in the manuscript which are color coded; we believe that these will alleviate referee's concern expressed in their previous report.
We hope that the present manuscript will be publishable in Scipost.
Thank you for your time and effort.
Your Sincerely
Tista Banerjee, Suchetan Das and Krishnendu Sengupta
List of changes
1) We have made changes in Secs 4.1, 1, and 5 in response to regeree's comment. These changes are color coded.
2) We have added App A showing detils of entanglement asymmetry calculation.
Published as SciPost Phys. 19, 051 (2025)
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