Origin of Magnetism in a Supposedly Nonmagnetic Osmium Oxide.

S Agrestini,J Frassineti,V F Mitrović,C Franchini,C J Sahle,M Moretti Sala,F Borgatti,K.-J Zhou,M Garcia-Fernandez,G Ghiringhelli,J Choi,B Detlefs,S Francoual,P M Woodward,D Fiore Mosca,Q Faure,S Sanna,P Florio,F Boscherini

doi:10.1103/physrevlett.133.066501

Origin of Magnetism in a Supposedly Nonmagnetic Osmium Oxide.

S Agrestini, J Frassineti + Show 17 more

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Journal: Physical review letters	Publication Date: Aug 5, 2024
Citations: 3	License type: CC BY 4.0

#Strong Electron-lattice Coupling #Double Perovskite Oxide #Origin Of Magnetism #Magnetic Circular Dichroism #X-ray Absorption Spectroscopy #Nominal Value #Local Symmetry #Theoretical Methods #Nonmagnetic Oxide #Multiplet Calculations

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A supposedly nonmagnetic 5d^{1} double perovskite oxide is investigated by a combination of spectroscopic and theoretical methods, namely, resonant inelastic x-ray scattering, x-ray absorption spectroscopy, magnetic circular dichroism, and multiplet ligand-field calculations. We found that the large spin-orbit coupling admixes the 5d t_{2g} and e_{g} orbitals, covalency raises the 5d population well above the nominal value, and the local symmetry is lower than O_{h}. The obtained electronic interactions account for the finite magnetic moment of Os in this compound and, in general, of 5d^{1} ions. Our results provide direct evidence of elusive Jahn-Teller distortions, hinting at a strong electron-lattice coupling.

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Origin of Magnetism in a Supposedly Nonmagnetic Osmium Oxide.