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Quantum Simulation
Many-Body Protection of Topological Edge Memory in Strong Interacting Quenches
arXiv
Authors: Yuxiao Hang, Stephan Haas, Rishabh Jha
Year
2026
Paper ID
69369
Status
Preprint
Abstract Read
~2 min
Abstract Words
203
Citations
N/A
Abstract
Quantum quenches drive edge states far from equilibrium, yet whether the memory of a topological initial state survives in a non-integrable, interacting system has remained largely unexplored. We study this question in the bond-alternating XXZ chain - an interacting Su--Schrieffer--Heeger model hosting symmetry-protected topological edge modes with markedly enhanced boundary magnetization - and analyze quenches across all combinations of single-particle and many-body initial and final Hamiltonians. The results organize by a single distinction as we rigorously establish in this work: whether the post-quench Hamiltonian is free or genuinely interacting. For a free post-quench Hamiltonian, the dynamics is solved exactly by a correlation-matrix approach; the boundary-mode return amplitude decays as t-3/2, and initial interactions enter only through a dressed one-body density matrix. For a genuinely interacting post-quench Hamiltonian, finite-time stability bounds prove that away from local resonances the first-dimer magnetization remains stable on time windows growing as arbitrarily large powers of the inverse inter-dimer coupling. Matrix product state simulations across all four protocols show that interactions in the final Hamiltonian markedly extend finite-time boundary memory - with local suppression near the isotropic SU(2) point - revealing a many-body protection mechanism in a non-integrable system where scrambling would otherwise wash out initial-state memory fast.
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- Quantum quenches drive edge states far from equilibrium, yet whether the memory of a topological initial state survives in a non-integrable, interacting system has remained...
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