Understanding the evolution of the magnetic ground state in Ba4NaRu3O12

Abstract

We report a comprehensive investigation of the quadruple perovskite Ba4NaRu3O12, in which we discover a robust spin-lattice coupled ground state characterized by a long-range antiferromagnetic ordering at TN 257 K. The system's unique structural motif of three symmetrically distinct magnetic ions, including Ru dimers separated by non-magnetic layers, is intimately correlated with its magnetic behavior, as evidenced by temperature-dependent diffraction measurements and specific heat data. The powder neutron diffraction patterns at 13 K showed that the spins within the dimers are antiparallel, leading to a net zero moment contribution and a staggered arrangement of the triangular layers formed by the Ru moments within the corner-shared octahedra along the c-axis. The low-temperature specific heat revealed an extra boson peak contribution from optical modes with a maximum vibrational energy of 55cm-1. The charge transport exhibited variable-range hopping (VRH) behaviour below TN, with a stronger energy-dependence than expected from the Efros-Shklovskii model, suggesting the presence of multiparticle correlation effects.

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