Exchange randomness and spin dynamics in the frustrated magnetic Keplerate W72V30

Abstract

The magnetic properties and spin dynamics of the spin frustrated polyoxometalate W72V30, where 30 V4+ ions (s = 1/2) occupy the sites of an icosidodecahedron, have been investigated by low temperature magnetization, magnetic susceptibility, proton and vanadium nuclear magnetic resonance, and theoretical studies. The field-dependent magnetization at 0.5 K increases monotonically up to 50 T without any sign of staircase behavior. This low-temperature behavior cannot be explained by a Heisenberg model based on a single value of the nearest-neighbor exchange coupling. We analyze this behavior upon assuming a rather broad distribution of nearest-neighbor exchange interactions. Slow spin dynamics of W72V30 at low temperatures is observed from the magnetic field and temperature dependence of nuclear spin-lattice relaxation rate 1/T1 measurements.