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| Format: | Preprint |
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2025
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| Online Access: | https://arxiv.org/abs/2508.07377 |
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| _version_ | 1866916890461339648 |
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| author | Moskvin, A. S. |
| author_facet | Moskvin, A. S. |
| contents | The insulator-bad metal transition observed in the Jahn-Teller (JT) magnets orthonickelates RNiO$_3$ (R = rare earth or yttrium Y) is considered to be a canonical example of the Mott transition, traditionally described in the framework of the Hubbard $U$-$t$-model and the density functional theory. However, actually the real insulating phase of nickelates is the result of charge disproportionation (CD) with the formation of a system of spin-triplet (S=1) electron [NiO$_6$]$^{10-}$ and spinless (S=0) hole [NiO$_6$]$^{8-}$ centers, equivalent to a system of effective spin-triplet composite bosons moving in a nonmagnetic lattice. Taking account of only charge degree of freedom we develop a novel minimal $U$-$V$-$t_b$-model for nickelates making use of the charge triplet model with the pseudospin formalism and effective field approximation. We show the existence of two types of CD-phases, high-temperature classical CO-phase with the G-type charge ordering of electron and hole centers, and low-temperature quantum CDq-phase with charge and spin density transfer between electron and hole centers, uncertain valence and spin value for NiO$_6$ centers. Model $T$-R phase diagram reproduces main features of the phase diagram found for RNiO$_3$. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2508_07377 |
| institution | arXiv |
| publishDate | 2025 |
| record_format | arxiv |
| spellingShingle | Insulator-bad metal transition in RNiO$_3$ nickelates beyond Hubbard model and density functional theory Moskvin, A. S. Strongly Correlated Electrons Materials Science The insulator-bad metal transition observed in the Jahn-Teller (JT) magnets orthonickelates RNiO$_3$ (R = rare earth or yttrium Y) is considered to be a canonical example of the Mott transition, traditionally described in the framework of the Hubbard $U$-$t$-model and the density functional theory. However, actually the real insulating phase of nickelates is the result of charge disproportionation (CD) with the formation of a system of spin-triplet (S=1) electron [NiO$_6$]$^{10-}$ and spinless (S=0) hole [NiO$_6$]$^{8-}$ centers, equivalent to a system of effective spin-triplet composite bosons moving in a nonmagnetic lattice. Taking account of only charge degree of freedom we develop a novel minimal $U$-$V$-$t_b$-model for nickelates making use of the charge triplet model with the pseudospin formalism and effective field approximation. We show the existence of two types of CD-phases, high-temperature classical CO-phase with the G-type charge ordering of electron and hole centers, and low-temperature quantum CDq-phase with charge and spin density transfer between electron and hole centers, uncertain valence and spin value for NiO$_6$ centers. Model $T$-R phase diagram reproduces main features of the phase diagram found for RNiO$_3$. |
| title | Insulator-bad metal transition in RNiO$_3$ nickelates beyond Hubbard model and density functional theory |
| topic | Strongly Correlated Electrons Materials Science |
| url | https://arxiv.org/abs/2508.07377 |