Spin-orbit induced mixed-spin ground state in $R$NiO$_3$ perovskites probed by XAS: new insight into the metal to insulator transition

A. Y. Ramos; C. Piamonteze; F. M. F. de Groot; H. C. N. Tolentino; J. A. Alonso; M. J. Mart\'inez-Lope; N. E. Massa

arxiv: cond-mat/0412276 · v1 · pith:74FU5KVSnew · submitted 2004-12-10 · ❄️ cond-mat.str-el · cond-mat.mtrl-sci

Spin-orbit induced mixed-spin ground state in RNiO₃ perovskites probed by XAS: new insight into the metal to insulator transition

C. Piamonteze , F. M. F. de Groot , H. C. N. Tolentino , A. Y. Ramos , N. E. Massa , J. A. Alonso , M. J. Mart\'inez-Lope This is my paper

classification ❄️ cond-mat.str-el cond-mat.mtrl-sci

keywords statetransitiongroundmixed-spinperovskitescrystalfieldinsulator

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We report on a Ni L$_{2,3}$ edges x-ray absorption spectroscopy (XAS) study in $R$NiO$_3$ perovskites. These compounds exhibit a metal to insulator ($MI$) transition as temperature decreases. The L$_{3}$ edge presents a clear splitting in the insulating state, associated to a less hybridized ground state. Using charge transfer multiplet calculations, we establish the importance of the crystal field and 3d spin-orbit coupling to create a mixed-spin ground state. We explain the $MI$ transition in $R$NiO$_3$ perovskites in terms of modifications in the Ni$^{3+}$ crystal field splitting that induces a spin transition from an essentially low-spin (LS) to a mixed-spin state.

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Spin-orbit induced mixed-spin ground state in RNiO₃ perovskites probed by XAS: new insight into the metal to insulator transition

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