Charge-stripe order, antiferromagnetism, and spin dynamics in the cuprate-analog nickelate La4Ni3O8

Abstract

We report a muon spin rotation (μSR) study of the cuprate-analog nickelate La4Ni3O8, which undergoes a transition at 105 K to a low-temperature phase with charge-stripe and antiferromagnetic (AFM) order on square planar NiO2 layers. Zero-field μSR shows that this transition is abrupt and that the AFM configuration is commensurate. Comparison of observed muon precession frequencies with Ni dipolar field calculations yields Ni moments 0.5μB. Dynamic muon spin relaxation above 105 K suggests critical slowing of Ni spin fluctuations, but is inconsistent with corresponding 139La NMR results. Critical slowing and an abrupt transition are also observed in the planar cuprate AFM La2CuO4+δ, where they are evidence for weakly interplanar-coupled two-dimensional AFM spin fluctuations, but our μSR data do not agree quantitatively with theoretical predictions for this scenario.