Electronic structure and magnetic properties of the strong-rung spin-1 ladder compound Rb3Ni2(NO3)7

Abstract

Small single crystals of Rb3Ni2(NO3)7 were obtained by crystallization from anhydrous nitric acid solution of rubidium nitrate and nickel nitrate hexahydrate. The basic elements of the crystal structure of this new compound are isolated spin-1 two-leg ladders of Ni2+-ions connected by (NO3)- groups. The experimental data show the absence of long range magnetic order at T ≥ 2~K. LDA+U calculations and the detailed analysis of the experimental data, i.e. of the magnetic susceptibility, the specific heat in magnetic fields up to 9~T, the magnetization, and of the high-frequency electron spin resonance data, enable quantitative estimates of the relevant parameters of the S=1 ladders in Rb3Ni2(NO3)7 . The rung-coupling J1 = 10.5~K, the leg-coupling J2=1.6~K, and the uniaxial anisotropy |A| = 179~GHz are obtained. The scenario of spin liquid quantum ground state is further corroborated by quantum Monte Carlo simulations of the magnetic susceptibility.