Magnetism of Kitaev spin-liquid candidate material RuBr3

Abstract

The ruthenium halide α-RuCl3 is a promising candidate for a Kitaev spin liquid. However, the microscopic model describing α-RuCl3 is still debated partly because of a lack of analogue materials for α-RuCl3, which prevents tracking of electronic properties as functions of controlled interaction parameters. Here, we report a successful synthesis of RuBr3. The material RuBr3~possesses BiI3-type structure (space group: R3) where Ru3+ form an ideal honeycomb lattice. Although RuBr3 has a negative Weiss temperature, it undergoes a zigzag antiferromagnetic transition at TN=34 K, as does α-RuCl3. Our analyses indicate that the Kitaev and non-Kitaev interactions can be modified in ruthenium trihalides by changing the ligand sites, which provides a new platform for exploring Kitaev spin liquids.