Phonon dispersion and electron-phonon coupling in MgB2 and AlB2

Abstract

We present a first principles investigation of the lattice dynamics and electron-phonon coupling of the superconductor MgB2 and the isostructural AlB2 within the framework of density functional perturbation theory using a mixed-basis pseudopotential method. Complete phonon dispersion curves and Eliashberg functions α2F are calculated for both systems. We also report on Raman measurements, which support the theoretical findings. The calculated generalized density-of-states for MgB2 is in excellent agreement with recent neutron-scattering experiments. The main differences in the calculated phonon spectra and α2F are related to high frequency in-plane boron vibrations. As compared to AlB2, they are strongly softened in MgB2 and exhibit an exceptionally strong coupling to electronic states at the Fermi energy. The total coupling constants are λMgB2=0.73 and λAlB2=0.43. Implications for the superconducting transition temperature are briefly discussed.

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