2D to 3D Magnetism in Synthetic Micas.
José Luis Rosas-HuertaJonas WolberClaire MinaudOscar FabeloClemens RitterOlivier MentréAngel Moisés Arévalo-LópezPublished in: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2024)
Fe-based mica minerals usually display two opposing magnetic ground states, either they behave as spin-glasses or as layered ferrimagnets. No definite reason has been proposed as an explanation for this duality. This conundrum is unraveled by comparing the synthetic micas KFe 3 [MGe 3 ]O 10 X 2 with M═Fe and Ga, X═OH - and F - . Neutron diffraction demonstrates a 2D to 3D magnetic transition in KFe 3 [FeGe 3 ]O 10 (OH) 2 while just hints or no order at all are observed for the fluorides with M═Fe and Ga respectively. The 3D transition is triggered by the presence of iron in the intralayer tetrahedra. DFT+U calculations show that the magnetic exchange couplings between the previously believed solely magnetic octahedral layers would otherwise be frustrated without this intralayer iron.