Probing the field-induced variation of the chemical potential in Bi(2)Sr(2)CaCu(2)O(y) via the magneto-thermopower measurements
Abstract
Approximating the shape of the measured in Bi2Sr2CaCu2Oy magneto-thermopower (TEP) S(T,H) by asymmetric linear triangle of the form S(T,H) Sp(H) B(H)(Tc-T) with positive B -(H) and B +(H) defined below and above Tc, we observe that B +(H) 2B -(H). In order to account for this asymmetry, we explicitly introduce the field-dependent chemical potential of holes μ (H) into the Ginzburg-Landau theory and calculate both an average Sav(T,H) and fluctuation Sfl(T,H) contributions to the total magneto-TEP S(T,H). As a result, we find a rather simple relationship between the field-induced variation of the chemical potential in this material and the above-mentioned magneto-TEP data around Tc, viz. μ (H) Sp(H).
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