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Spin susceptibility in small Fermi energy systems: effects of nonmagnetic impurities

arXiv:cond-mat/0211481 · doi:10.1140/epjb/e2002-00408-2

Abstract

In small Fermi energy metals, disorder can deeply modify superconducting state properties leading to a strong suppression of the critical temperature $T_c$. In this paper, we show that also normal state properties can be seriously influenced by disorder when the Fermi energy $E_{\rm F}$ is sufficiently small. We calculate the normal state spin susceptibility $χ$ for a narrow band electron-phonon coupled metal as a function of the non-magnetic impurity scattering rate $γ_{\rm imp}$. We find that as soon as $γ_{\rm imp}$ is comparable to $E_{\rm F}$, $χ$ is strongly reduced with respect to its value in the clean limit. The effects of the electron-phonon interaction including the nonadiabatic corrections are discussed. Our results strongly suggest that the recent finding on irradiated MgB$_2$ samples can be naturally explained in terms of small $E_{\rm F}$ values associated with the $σ$-bands of the boron plane, sustaining therefore the hypothesis that MgB$_2$ is a nonadiabatic metal.

7 pages, 6 eps figures, to appear on Eur. Phys. J. B