Measurement of f orbital hybridization in rare earths through electric dipole-octupole interference in x-ray absorption spectroscopy
Publication date
2019-12-09
Authors
Juhin, Amélie
Collins, Stephen P.
Joly, Yves
Diaz-Lopez, Maria
Kvashnina, Kristina
Glatzel, Pieter
Brouder, Christian
de Groot, Frank
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Abstract
This work provides a direct route to measure the degree of hybridization of f states in rare earths. The interference between electric dipole and octupole transitions is measured at the L1 edge of Gd in Gd3Ga5O12 using x-ray natural linear dichroism (XNLD) and high energy resolution fluorescence detection. The Gd 4 f -6p admixture is quantified through the integral of the dipole-octupole XNLD using a sum rule easily applicable to experimental data. The mixing of the Gd valence states with the O ligand orbitals, calculated from first principles, reveals that despite their localized character, the Gd 4 f orbitals mix with the O 2p and 2s orbitals with an antibonding and bonding character, respectively.
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Juhin, A, Collins, S P, Joly, Y, Diaz-Lopez, M, Kvashnina, K, Glatzel, P, Brouder, C & de Groot, F 2019, 'Measurement of f orbital hybridization in rare earths through electric dipole-octupole interference in x-ray absorption spectroscopy', Physical Review Materials, vol. 3, no. 12, 12080. https://doi.org/10.1103/PhysRevMaterials.3.120801