Chiral magnetic properties of MnF2 (2509.05686v1)

Abstract: Symmetry informed diffraction patterns for magnetically ordered MnF2 illuminated by x-rays tuned in energy to a Mn atomic resonance depend on circular polarization in the primary beam. The change in intensity of a Bragg spot with a change in handedness defines a chiral signature for the compensated antiferromagnet that is calculated for electric dipole (E1) and electric quadrupole (E2) absorption events. E1-E2 absorption events are forbidden by inversion symmetry in Wyckoff positions assigned to Mn ions in the established MnF2 magnetic symmetry. Spin-flip signals from the magnetic scattering of polarized neutrons depend on electronic quadrupole and octupole moments that are zero for the nominal 3d5 configuration of Mn2+, which make them good tests of the actual electronic structure.