Interference-protected subspaces in chaotic spin chains host broad nonthermal phenomena at high energy densities, explained by a quantitative leakage theory that extends weak ergodicity breaking beyond homogeneous scars.
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A simplified version of quantum dynamical entropy is introduced, its growth rate is computed from correlation functions in the thermodynamic limit, and a Planckian bound on the rate is conjectured.
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Coherent dynamics in chaotic spin chains via interference-protected subspaces
Interference-protected subspaces in chaotic spin chains host broad nonthermal phenomena at high energy densities, explained by a quantitative leakage theory that extends weak ergodicity breaking beyond homogeneous scars.
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Planckian bound on quantum dynamical entropy
A simplified version of quantum dynamical entropy is introduced, its growth rate is computed from correlation functions in the thermodynamic limit, and a Planckian bound on the rate is conjectured.