Quantum many-body scarring from Kramers-Wannier duality
Abstract: Kramers-Wannier duality, a hallmark of the Ising model, has recently gained renewed interest through its reinterpretation as a non-invertible symmetry with a state-level action. Using sequential quantum circuits (SQC), we argue that this duality governs the stability of quantum many-body scar (QMBS) states in a nonintegrable model, depending on whether the dual preserves the embedding conditions for scarring. This is supported by striking agreement between first-order perturbation theory and numerics, which capture scar dynamics despite chaotic spectra. Our results suggest that non-invertible dualities provide both a generative mechanism for new QMBS and a diagnostic for their stability.
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