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W2022941099 abstract "The symmetric periodic Anderson model is studied in the limit of infinite spatial dimensions with an essentially exact quantum Monte Carlo method. As the temperature is lowered T${mathit{T}}_{0}$, the properties of the system cross over from those of a metal with a moderately heavy mass, to those of an insulator in which the one- and two-particle spectra develop gaps ensuremath{approxeq}${mathit{T}}_{0}$, where ${mathit{T}}_{0}$ is the Wilson Kondo scale. Whereas the quasiparticle gap ensuremath{approxeq}${mathit{T}}_{0}$ is indirect in momentum, the optical conductivity displays a much larger direct gap. ${mathit{T}}_{0}$ is much larger in the symmetric lattice than in the impurity problem with the same parameters. Depending upon the ratio of ${mathit{T}}_{0}$ to the Ruderman-Kittel-Kasuya-Yosida exchange energy, there is a transition to an antiferromagnetic state. In the paramagnetic state, the f-electron linear specific heat shows scaling with T/${mathit{T}}_{0}$, whereas the f-electron contribution to the bulk susceptibility shows only a rough scaling with T/${mathit{T}}_{0}$ with deviations that are consistent with the strength of the net ferromagnetic exchange." @default.
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W2022941099 date "1995-03-15" @default.
W2022941099 modified "2023-10-13" @default.
W2022941099 title "Symmetric periodic Anderson model in infinite dimensions" @default.
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W2022941099 doi "https://doi.org/10.1103/physrevb.51.7429" @default.
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