| Abstract
| - Synthesis, crystal structures, and magnetic properties of new quaternary oxides Ba4LnRu3O12 (Ln = lanthanides) were investigated. From the powder X-ray and neutron diffraction measurements, it is found that they adopt the 12L-perovskite-type structures consisting of Ru3O12 trimers and LnO6 octahedra. The Ba4LnRu3O12 for Ln = Tb−Lu have a hexagonal unit cell with the space group R3̅m, while those for Ln = La−Nd, Sm−Gd have a monoclinically distorted cell with C2/m. Only for Ln = Ce, Pr, and Tb compounds, the Ln ions are in the tetravalent state. The magnetic properties of these three compounds were investigated. For Ba4CeRu3O12, no magnetic transition was observed down to 0.5 K. The Ba4PrRu3O12 and Ba4TbRu3O12 show an antiferromagnetic transition at 2.4 and 24 K, respectively. The magnetic structure for Ba4TbRu3O12 was determined by powder neutron diffraction measurements at low temperatures, which indicates the long-range antiferromagnetic ordering.
- New quaternary oxides Ba4LnRu3O12 (Ln = La−Nd, Sm−Lu) were synthesized. These compounds adopt the 12L-perovskite-type structures consisting of Ru3O12 trimers and LnO6 octahedra. The Ba4PrRu3O12 and Ba4TbRu3O12 show an antiferromagnetic transition at 2.4 and 24 K, respectively. The magnetic structure for Ba4TbRu3O12 was determined by powder neutron diffraction measurements.
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