Tunneling spectroscopy reveals Hund-induced superdispersion in Sr2RuO4, matching DFT+DMFT predictions via non-monotonic real-part self-energy.
Bulla , author T
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i-DFT computes spectral and transmission properties of correlated quantum dots from Coulomb blockade to Kondo regimes, matching many-body results at reduced cost.
Sudden hybridization quenches induce dephasing via particle-hole excitations, with mixed linear-logarithmic discretization suppressing finite-size revivals to reveal crossover from coherent oscillations to irreversible decoherence.
Adapted TEBD in star geometry is the most efficient MPS method for real-time evolution of Anderson impurity models among the tested combinations.
citing papers explorer
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Revealing Hund superdispersion with tunneling spectroscopy
Tunneling spectroscopy reveals Hund-induced superdispersion in Sr2RuO4, matching DFT+DMFT predictions via non-monotonic real-part self-energy.
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Spectral and transmission properties of multiple correlated quantum dots made simple
i-DFT computes spectral and transmission properties of correlated quantum dots from Coulomb blockade to Kondo regimes, matching many-body results at reduced cost.
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Decoherence due to the sudden coupling of an impurity to a metal
Sudden hybridization quenches induce dephasing via particle-hole excitations, with mixed linear-logarithmic discretization suppressing finite-size revivals to reveal crossover from coherent oscillations to irreversible decoherence.
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Comparison of MPS based real time evolution algorithms for Anderson Impurity Models
Adapted TEBD in star geometry is the most efficient MPS method for real-time evolution of Anderson impurity models among the tested combinations.