Continuous-time quantum walks show quadratic short-time scaling in multi-time position measurement nonclassicality unlike the linear scaling of single-time quantum-classical distance, with strong topology dependence at long times that varies under position versus energy dephasing.
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Engineering a tunable phase θ between distinguishable particles shows that exchange statistics reshape entanglement dynamics, producing distinct purity and coherence regimes for bound versus neighboring-site initial states and a high-purity window at intermediate U.
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Temporal nonclassicality in continuous-time quantum walks
Continuous-time quantum walks show quadratic short-time scaling in multi-time position measurement nonclassicality unlike the linear scaling of single-time quantum-classical distance, with strong topology dependence at long times that varies under position versus energy dephasing.
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Entanglement dynamics of delocalized interacting particles
Engineering a tunable phase θ between distinguishable particles shows that exchange statistics reshape entanglement dynamics, producing distinct purity and coherence regimes for bound versus neighboring-site initial states and a high-purity window at intermediate U.