Magnetism in MnPSe3: a layered 3d(5) antiferromagnet with unusually large XY anisotropy

The anisotropic magnetic susceptibilities of single crystals of the isostru ctural layered antiferromagnets, MnPS3 (T-N = 78 K) and MnPSe3 (T-N = 74 K) , have been measured as functions of temperature. In both compounds, divale nt manganese is present in the high-spin S = 5/2 state. The anisotropies in the susceptibilities of the two are, however, very different; while the su sceptibility of MnPS3 is isotropic, that of MnPSe3 shows a large XY anisotr opy, unusual for a manganese compound. The anisotropic susceptibilities are described by the zero-field spin Hamiltonian: H = DSiz2 - Sigma J(ij).(S) over right arrow (S) over right arrow(j) with the quadratic single-ion anis otropy term introducing anisotropy in an otherwise isotropic situation. The exchange J and the single-ion zero-field-splitting (ZFS) parameter D were evaluated using the correlated effective-field theory of Lines. For MnPSe3, J/k = -5.29 K and D/k = 26.6 K, while for isotropic MnPS3, J/k = -8.1 K. I t is suggested that the large value of the ZFS parameter for MnPSe3 as comp ared to MnPS3 could be due to the large ligand spin-orbit contribution of t he heavier selenium.