Microscopic origin of pressure-induced phase transitions in iron-pnictide AFe2As2 superconductors: an ab initio molecular-dynamics study

Abstract

Using ab initio molecular dynamics we investigate the electronic and lattice structure of AFe2As2 (A=Ca, Sr, Ba) under pressure. We find that the structural phase transition (orthorhombic to tetragonal symmetry) is always accompanied by a magnetic phase transition in all the compounds, while the nature of the transitions is different for the three systems. Our calculations explain the origin of the existence of a collapsed tetragonal phase in CaFe2As2 and its absence in BaFe2As2. We argue that changes of the Fermi surface nesting features dominate the phase transition under pressure rather than spin frustration or a Kondo scenario. The consequences for superconductivity are discussed.