Mechanism for the high Neel temperature in SrTcO3

Abstract

The microscopic origin of the high Neel temperature (TN) observed experimentally in SrTcO3 has been examined using a combination of ab-initio electronic structure calculations and mean-field solutions of a multiband Hubbard model. The G-type antiferromagnetic state is found to be robust for a large region of parameter space, with large stabilization energies found, surprisingly, for small values of intraatomic exchange interaction strength as well as large bandwidths. The microscopic origin of this is traced to specific aspects associated with the d3 configuration at the transition-metal site. Considering values of interaction strengths appropriate for SrTcO3 and the corresponding 3d oxide SrMnO3, we find a ratio of 4:1 for the TN as well as magnitudes consistent with experiment.