Stability and superconductivity of lanthanum and yttrium decahydrides
Alice M. Shipley, Michael Hutcheon, Mark S. Johnson, R. J. Needs, Chris J. Pickard
Abstract
Rare-earth hydrides can exhibit high-temperature superconductivity under high pressure. Here, we apply a crystal structure prediction method to the current record-holding ${T}_{c}$ material, ${\mathrm{LaH}}_{10}$. We find a pressure-induced phase transition from the experimentally observed cubic phase to a hexagonal phase at around 420 GPa. This phase is metastable down to low pressures and could explain experimental observations of hcp impurities in fcc samples. We go on to find that ${\mathrm{YH}}_{10}$ adopts similar structures and discuss the sensitivity of superconductivity calculations to certain computational parameters.
Topics & Concepts
YttriumSuperconductivityLanthanumHexagonal crystal systemImpurityPhase (matter)Condensed matter physicsHexagonal phaseMaterials scienceSuperconducting transition temperatureRare earthCrystal structureCrystallographyChemistryPhysicsInorganic chemistryMetallurgyOrganic chemistryOxideHigh-pressure geophysics and materialsRare-earth and actinide compoundsDiamond and Carbon-based Materials Research