Quantum disordered ground state and relative proximity to an exactly solvable model in the frustrated magnet CeMgAl11O19

Abstract

The magnetic properties of the triangular magnet CeMgAl11O19 were investigated by magnetization and specific heat measurements down to T=0.03\,K on single crystals grown by the floating zone method. The formation of effective spins Seff= 1/2 below T < 10\,K was confirmed both by DFT calculations and specific heat measurements. No magnetic order was found down to T=0.03\,K despite the formation of magnetic correlations observed in specific heat. The measured magnetization was compared with DMRG computation and their agreement supports the proposal of a strongly anisotropic magnetic interaction antiferromagnetically coupling the spin components in the ab plane and ferromagnetically coupling the spin component along the c axis. However, our quantitative study of the magnetization indicates a weaker proximity to quantum criticality between ferromagnetism and antiferromagnetism than the previous inelastic neutron scattering study. Finally, we propose that the absence of magnetic order in CeMgAl11O19 would most probably be related to the structural disorder revealed by single-crystal X-ray diffraction.