DQMC simulations of the doped Hubbard model find that Hall conductivity, unlike robust T-linear resistivity, is sensitive to asymmetry and Fermi surface details and reveals a crossover to quantum-coherent transport.
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ECFL theory accounts for density-dependent quasilinear resistivity, small quasiparticle weight, and emergent low-T scales in single-layer high-Tc systems via the t-J model.
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Hall conductivity reveals the nature of quantum coherence in strongly correlated metals
DQMC simulations of the doped Hubbard model find that Hall conductivity, unlike robust T-linear resistivity, is sensitive to asymmetry and Fermi surface details and reveals a crossover to quantum-coherent transport.
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Overview of the Theory of Extremely Correlated Fermi Liquids
ECFL theory accounts for density-dependent quasilinear resistivity, small quasiparticle weight, and emergent low-T scales in single-layer high-Tc systems via the t-J model.