Magnetic properties of frustrated spin-12 capped-kagome antiferromagnet (CsBr)Cu5V2O10

Abstract

The structural and magnetic properties of a spin-12 averievite (CsBr)Cu5V2O10 are investigated by means of temperature-dependent x-ray diffraction, magnetization, heat capacity, and 51V nuclear magnetic resonance (NMR) measurements. The crystal structure (trigonal, P3) features a frustrated capped-kagome lattice of the magnetic Cu2+ ions. Magnetic susceptibility analysis indicates a large Curie-Weiss temperature of θ CW -175 K. Heat capacity signals the onset of a magnetic long-range-order (LRO) at T N 21.5 K at zero magnetic field due to the presence of significant inter-planer coupling in this system. The magnetic LRO below 27 K is further evident from the drastic change in the 51V NMR signal intensity and rapid enhancement in the 51V spin-lattice relaxation rate in a magnetic field of 6.3 T. The frustration index f=|θ CW|/T N 8 ascertains strong magnetic frustration in this compound. From the high-temperature value of the 51V NMR spin-lattice relaxation rate, the leading antiferromagnetic exchange interaction between the Cu2+ ions is calculated to be J/k B 136 K.

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