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W2313557877 abstract "We contrast the transport properties (dc resistivity, Seebeck coefficient), optical conductivity, spectral functions, dynamical magnetic susceptibility, and the NMR $1/T_1$ spin-lattice relaxation rate of the repulsive and attractive infinite-dimensional Hubbard models in the paramagnetic phase for a generic band filling. The calculations are performed in a wide temperature interval using the dynamical mean-field theory with the numerical renormalization group as the impurity solver. The attractive case exhibits significantly more complex temperature dependences which can be explained by the behavior of the half-filled Hubbard model in external magnetic field with constant magnetization, to which the attractive Hubbard model maps through the partial particle-hole transformation. The resistivity is non-monotonous for strongly attractive case: it peaks significantly above the MIR value at a temperature $T_mathrm{max}$ where the quasiparticle band disappears. For both signs of $U$ we find particle-hole asymmetry in the self-energy at low energies, but with the opposite kind of excitations having longer lifetime. This leads to a strong suppression of the slope of the Seebeck coefficient in the attractive case, rather than an enhancement as in the repulsive case. The spin-lattice relaxation rate in the strongly attractive case has a non-monotonic temperature dependence, thereby revealing the pairing fluctuations." @default.
W2313557877 created "2016-06-24" @default.
W2313557877 creator A5062380534 @default.
W2313557877 creator A5074076750 @default.
W2313557877 creator A5078936714 @default.
W2313557877 date "2015-04-08" @default.
W2313557877 modified "2023-09-24" @default.
W2313557877 title "Repulsive versus attractive Hubbard model: Transport properties and spin-lattice relaxation rate" @default.
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W2313557877 doi "https://doi.org/10.1103/physrevb.91.155111" @default.
W2313557877 hasPublicationYear "2015" @default.
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