Finite-Band-width Effects on the Transition Temperature and NMR Relaxation Rate of Impure Superconductors

Abstract

We study the thermodynamic properties of impure superconductors by explicitly taking into consideration the finiteness of electronic bandwidths within the phonon-mediated Eliashberg formalism. For a finite electronic bandwidth, the superconducting transition temperature, Tc, is suppressed by nonmagnetic impurity scatterings. This is a consequence of a reduction in the effective electron-phonon coupling, λeff. The reduced λeff is reflected in the observation that the coherence peak in 1/(T1 T), where T1 is the nuclear spin-lattice relaxation time and T is the temperature, is enhanced by impurity scatterings for a finite bandwidth. Calculations are presented for Tc and 1/(T1 T) as bandwidths and impurity scattering rates are varied. Implications for doped C60 superconductors are discussed in connection with Tc and 1/T1 measurements.

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