Physical properties of a quasi-two-dimensional square lattice antiferromagnet Ba2FeSi2O7

Abstract

We report the magnetization (, M), specific heat (CP), and neutron powder diffraction results on a quasi-two-dimensional S = 2 square lattice antiferromagnet Ba2FeSi2O7 consisting of FeO4 tetragons with a large compressive distortion (27%). Despite of the quasi-two-dimensional lattice structure, both and CP present three dimensional magnetic long-range order below the N\'eel temperature TN = 5.2 K. Neutron diffraction data shows a collinear Qm = (1,0,0.5) antiferromagnetic (AFM) structure with the in-plane ordered magnetic moment suppressed by 26% below TN. Both the AFM structure and the suppressed moments are well explained by the Monte Carlo simulation with a large single-ion ab-plane anisotropy D = 1.4 meV and a rather small in-plane Heisenberg exchange Jintra = 0.15 meV. The characteristic two dimensional spin fluctuations can be recognized in the magnetic entropy release and diffuse scattering above TN. This new quasi-2D magnetic system also displays unusual non-monotonic dependence of the TN as a function of magnetic field H.