Atomic and electronic structures of ternary iron arsenides AFe2As2(001) surfaces (A=Ba, Sr, or Ca)

Abstract

By the first-principles electronic structure calculations, we find that energetically the most favorable cleaved AFe2As2(001) surface (A=Ba, Sr, or Ca) is A-terminated with a (2× 2)R45 or (1× 2) order. The (1× 2) ordered structure yields a (1× 2) dimerized STM image, in agreement with the experimental observation. The A atoms are found to diffuse on the surface with a small energy barrier so that the cleaving process may destroy the A atoms ordering. At the very low temperatures this may result in an As-terminated surface with the A atoms in randomly assembling. The As-terminated BaFe2As2 surface in orthorhombic phase is (2×2)R45 buckled, giving rise to a switchable (2× 2)R45 STM pattern upon varying the applied bias. No any reconstruction is found for the other As-terminated surfaces. There are surface states crossing or nearby the Fermi energy in the As-terminated and (1× 2) A-terminated surfaces. A unified physical picture is thus established to help understand the cleaved AFe2As2(001) surfaces.