Pair-checkerboard antiferromagnetic order in β-Fe4Se5 with 5×5 ordered Fe vacancies

Abstract

The electronic structure of recently discovered β-Fe4Se5 with 5 × 5 ordered Fe vacancies is calculated using first-principles density functional theory. We find that the ground state is an antiferromagnetic (AFM) insulator in agreement with the experimental observation. In K2Fe4Se5, it is known that the ground state is 5 × 5-blocked-checkerboard AFM ordered. But for this material, we find that the ground state is 5 × 5-pair-checkerboard AFM ordered, in which the intrablock four Fe spins exhibit the collinear AFM order and the interblock spins on any two nearest-neighboring sites are antiparallel aligned. This state is about 130 meV/Fe lower in energy than the 5 × 5-blocked-checkerboard AFM one. Electron doping can lower the energy of the 5 × 5-blocked-checkerboard AFM state and introduce a transition between these two states, suggesting that there is strong AFM fluctuation in FeSe-based materials upon doping. This provides a unified picture to understand the AFM orders in β-Fe4Se5 and in alkali-metal intercalated FeSe materials.