51V-NMR study on the S=1/2 square lattice antiferromagnet K2V3O8

Abstract

Static and dynamic properties of the quasi-two-dimensional antiferromagnet K2V3O8 have been investigated by 51V-NMR experiments on nonmagnetic V5+ sites. Above the structural transition temperature TS = 115 K, NMR spectra are fully compatible with the P4bm space group symmetry. The formation of superstructure below TS causes splitting of the NMR lines, which get broadened at lower temperatures so that individual peaks are not well resolved. Evolution of NMR spectra with magnetic field along c-axis below the magnetic transition temperature TN 4 K is qualitatively consistent with a simple N\'eel order and a spin flop transition. However, broad feature of the spectra does not rule out possible incommensurate spin structure. The spin-lattice relaxation rate 1/T1 below TN shows huge enhancement for a certain range of magnetic field, which is independent of temperature and attributed to cross relaxation due to anomalously large nuclear spin-spin coupling between V5+ and magnetic V4+ sites. The results indicate strong gapless spin fluctuations, which could arise from incommesurate orders or complex spin textures.