Suppression of 3D-ordering by defects in the S=1/2 frustrated chain magnet LiCuVO4

Abstract

We report on a heat capacity study of high quality single crystal samples of \ -- a frustrated spin S=1/2 chain system -- in magnetic field amounting to 3/4 of the saturation field. At low fields up to about 7~T, a linear temperature dependence of the specific heat, Cp T, resulting from 1D magnetic correlations in the spin chains is followed upon cooling by a sharp lambda anomaly of the transition into a 3D helical phase with Cp T3 behavior at low temperature. The transition from a spin liquid into a spin-modulated (SM) phase at higher fields occurs via a hump-like anomaly which, as the temperature decreases further turns into a Cp T2 law distinctive for a quasi-2D system. We suggest an explanation for how nonmagnetic defects in the Cu2+ chains can suppress 3D long-range ordering in the SM phase and leave it undisturbed in a helical phase.