In the dilute limit of the 1D infinite-U Hubbard model the charge Drude weight admits a closed-form expression whose low-temperature expansion, after regularization of the singular contribution, yields linear-in-T resistivity.
Mukerjee , author V
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In chaotic quantum systems with conservation laws, states initially farther from equilibrium can thermalize faster than closer ones via hydrodynamic relaxation differences, realizing the quantum Mpemba effect.
Numerical study of the t-J model finds strange metallicity pervasive when AF order is suppressed, with Planckian behavior rooted in the quantum statistical nature of the charge response.
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Transport and Temperature 1: Exact spectrum and resistivity for the one-dimensional infinite-$U$ Hubbard model
In the dilute limit of the 1D infinite-U Hubbard model the charge Drude weight admits a closed-form expression whose low-temperature expansion, after regularization of the singular contribution, yields linear-in-T resistivity.
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Quantum Mpemba effect in chaotic systems with conservation laws
In chaotic quantum systems with conservation laws, states initially farther from equilibrium can thermalize faster than closer ones via hydrodynamic relaxation differences, realizing the quantum Mpemba effect.
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Strange metal transport from coupling to fluctuating spins
Numerical study of the t-J model finds strange metallicity pervasive when AF order is suppressed, with Planckian behavior rooted in the quantum statistical nature of the charge response.