Calculation of magnetic exchange couplings in S=3/2 honeycomb system Bi3Mn4O12(NO3) from first principles

Abstract

Absence of magnetic ordering in Bi3Mn4O12(NO3), (BMNO) which has a magnetic subsystem that consists of honeycomb bi-layers of Mn4+ ions with spin S=3/2, has raised the expectation that its ground state is strongly frustrated due to longer-range antiferromagnetic interactions. We calculate the magnetic exchange coupling constants of the BMNO complex within a density functional approach and find that the dominating interactions between Mn spins are the antiferromagnetic nearest-neighbor J1 and interlayer interaction Jc. The largest interaction is Jc, which substantially exceeds J1. Longer-range interactions are antiferromagnetic, but only weakly frustrating.