The pseudopotential approach within density-functional theory: the case of atomic metallic hydrogen

Abstract

Internal energies, enthalpies, phonon dispersion curves, and superconductivity of atomic metallic hydrogen are calculated. The (standard) use pseudopotentials in density-functional theory are compared with full (Coulomb)-potential all-electron linear muffin-tin orbital calculations. Quantitatively similar results are found as far as internal energies are concerned. Larger differences are found for phase-transition pressures; significant enough to affect the phase diagram. Electron--phonon spectral functions α2 F(ω) also show significant differences. Against expectation, the estimated superconducting critical temperature Tc of the first atomic metallic phase I41/amd (Cs-IV) at 500 GPa is actually higher.