Successive short- and long-range magnetic ordering in rosiaite-type CoGeTeO prepared by ion-exchange reaction

The missing member of the rosiaite family, CoGeTeO 6 , was synthesized by mild ion-exchange reactions and characterized by magnetization M and specific heat C p measurements. It exhibits a successive short- and long-range magnetic ordering at T short-range 45 K and T N = 15 K, respectively. Based on these measurements, the magnetic H - T phase diagram was established, showing two antiferromagnetic phases separated by a spin-flop transition. The reason why the pronounced short-range correlation occurs at a temperature nearly three times higher than T N was found by evaluating the Co-O O-Co exchange interactions using energy-mapping analysis. Although CoGeTeO 6 has a layered structure, its magnetic structure consists of three-dimensional antiferromagnetic lattices made up of rhombic boxes of Co 2+ ions. The experimental data obtained at high temperatures agree well with the computational results by treating the Co 2+ ions of CoGeTeO 6 as S = 3/2 ions, but the heat capacity and magnetization data were obtained at low temperatures by treating the Co 2+ ion as a J eff = 1/2 ion. CoGeTeO 6 , the missing member of the rosiaite family, was obtained from Na 2 GeTeO 6 by ion-exchange reaction. It undergoes short- and long-range magnetic ordering well separated with respect to temperature due to the spin frustration.