Unraveling the magnetic ground-state in alkali-metal lanthanide oxide Na2PrO3

Abstract

A comprehensive set of muon spin spectroscopy and neutron scattering measurements supported by ab-initio and model Hamiltonian simulations have been used to investigate the magnetic ground state of Na2PrO3. μSR reveals N\'eel antiferromagnetic order below T N\! \! 4.9 K, with a small static magnetic moment m static\!≤ \! 0.22~μ B/ Pr collinearly aligned along the c-axis. Inelastic neutron measurements reveal the full spectrum of crystal field excitations and confirm that the Pr4+ ground state wave function deviates significantly from the 7 limit relevant to the Kitaev model. Single and two magnon excitations are observed in the ordered state below TN=4.6 K and are well described by non-linear spin wave theory from the N\'eel state using a magnetic Hamiltonian with Heisenberg exchange J=1 meV and symmetric anisotropic exchange /J=0.1, corresponding to an XY model. Intense two magnon excitations are accounted for by g-factor anisotropy gz/g = 1.29. A fluctuating moment δ m2 = 0.57(22) μ B2/ Pr extracted from the energy and momentum integrated inelastic neutron signal is reduced from expectations for a local J=1/2 moment with average g-factor g avg≈ 1.1. Together, the results demonstrate that the small moment in Na2PrO3 arises from crystal field and covalency effects and that the material does not exhibit significant quantum fluctuations..

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