In 2D topological models, edge modes produce dynamical scars that carry initial perturbation information around the boundary without scrambling, with scars passing through each other.
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Planckian dissipation bounds emerge as the requirement for classical hydrodynamics to stay valid at low temperature in quantum systems, via blurring from the quantum fluctuation-dissipation theorem.
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Dynamical Scarring from Scrambling in Two Dimensional Topological Materials
In 2D topological models, edge modes produce dynamical scars that carry initial perturbation information around the boundary without scrambling, with scars passing through each other.
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Planckian dissipation from classical hydrodynamics
Planckian dissipation bounds emerge as the requirement for classical hydrodynamics to stay valid at low temperature in quantum systems, via blurring from the quantum fluctuation-dissipation theorem.