MgB2under pressure: phonon calculations, Raman spectroscopy, and optical reflectance

Abstract

The effect of pressure on optical phonon frequencies of MgB₂ has been calculated using the frozen-phonon approach based on a pseudopotential method. Grüneisen parameters of the harmonic mode frequencies are reported for the high-frequency zone-centre E_2g and B_1g and the zone-boundary E_2u and B_2u modes at A. Anharmonic effects of phonon frequencies and the implications of the calculated phonon frequency shifts for the pressure dependence of the superconducting transition temperature of MgB₂ are discussed. Also reported are Raman and optical reflectance spectra of MgB₂ measured at high pressures. The experimental observations in combination with calculated results indicate that the broad spectral features that we observed in the Raman spectra at frequencies between 500 and 900 cm^-1 cannot be attributed to first-order scattering by zone-centre modes, but originate in part from a chemical species other than MgB₂ at the sample surface and in part from a maximum in the MgB₂ phonon density of states. Low-temperature Raman spectra taken at ambient pressure showed increased scattering intensity in the region below 300 cm^-1.