A Study of Carbon Substitutions in MgB2 within the two-band Eliashberg theory
Abstract
We study the effects of C substitutions in MgB2 within the two-band model in the Eliashberg formulation. We use as input the B-B stretching-mode frequency and the partial densities of states Nsigma(EF) and Npi(EF), recently calculated for Mg(B1-xCx)2 at various x values from first-principles density functional methods. We then take the prefactor in the Coulomb pseudopotential matrix, mu, and the interband scattering parameter, Gammasigma pi, as the only adjustable parameters. The dependence on the C content of Tc and of the gaps (Deltasigma and Deltapi) recently measured in Mg(B1-xCx)2 single crystals indicate an almost linear decrease of mu on increasing x, with an increase in interband scattering that makes the gaps merge at x=0.132. In polycrystals, instead, where the gap merging is not observed, no interband scattering is required to fit the experimental data.
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