Quantum phase transition between disordered and ordered states in the spin-1/2 kagome lattice antiferromagnet (Rb1-xCsx)2Cu3SnF12

Abstract

We have systematically investigated the variation of the exchange parameters and the ground state in the S = 1/2 kagome-lattice antiferromagnet (Rb1-xCsx)2Cu3SnF12, via magnetic measurements using single crystals. One of the parent compounds, Rb2Cu3SnF12, which has a distorted kagome lattice accompanied by four sorts of nearest-neighbor exchange interaction, has a disordered ground state described by a pinwheel valence-bond-solid state. The other parent compound, Cs2Cu3SnF12, which has a uniform kagome lattice at room temperature, has an ordered ground state with the q = 0 spin structure. The analysis of magnetic susceptibilities shows that with increasing cesium concentration x, the exchange parameters increase with the tendency to be uniform. It was found that the ground state is disordered for x < 0.53 and ordered for x > 0.53. The pseudogap observed for x < 0.53 and the N\'eel temperature for x > 0.53 approach zero at x c 0.53. This is indicative of the occurrence of a quantum phase transition at x c.