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Dependence of transport coefficients of Yb(Rh1-xCox)(2)Si-2 intermetallics on temperature and cobalt concentration

Dependence of transport coefficients of the Yb(Rh1-xCox)(2)Si-2 series of alloys on temperature and cobalt concentration is explained by an asymmetric Anderson model which takes into account the exchange scattering of conduction electrons on ytterbium ions and the splitting of 4f states by the crystalline electric field (CEF). The substitution of rhodium by cobalt is described as an increase of chemical pressure which reduces the exchange coupling and the CEF splitting. The scaling analysis and numerical NCA solution of the model show that the effective degeneracy of the 4f state at a given temperature depends on the relative magnitude of the Kondo scale and the CEF splitting. Thus, we find that dependence of the thermopower, S(T), on temperature and cobalt concentration can be understood as an interplay of quantum fluctuations, driven by the Kondo effect, and thermal fluctuations, which favor a uniform occupation of the CEF states. The theoretical model captures all the qualitative features of the experimental data and it explains the evolution of the shape of S(T) with the increase of cobalt concentration.

transport properties ; Yb(Rh1-xCox)(2)Si-2 ; CEF splitting ; Anderson model

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