Change of Antiferromagnetic Structure near a Quantum Critical Point in CeRh1-xCoxIn5

Abstract

The elastic neutron scattering experiments were carried out on the solid solutions CeRh1-xCoxIn5 to clarify the nature of the antiferromagnetic (AF) state in the vicinity of the quantum critical point (QCP): xc ~0.8. The incommensurate AF order with the wave vector of qh=(1/2,1/2,~0.3) observed in pure CeRhIn5 is weakly suppressed upon doping with Co, and a commensurate qc=(1/2,1/2,1/2) and an incommensurate q1=(1/2,1/2,~0.42) AF structures evolve at intermediate Co concentrations. These AF orders are enhanced at x=0.7, and furthermore the qh AF order vanishes. These results suggest that the AF correlations with the qc and q1 modulations are significantly enhanced in the intermediate x range, and may be connected with the evolution of the superconductivity observed above x~0.3.