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| Format: | Preprint |
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2024
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| Online Access: | https://arxiv.org/abs/2403.07574 |
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| _version_ | 1866913262400962560 |
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| author | Mian, Wang Zhang, Qian Jing, Shuai Li, Xiang-Guo Hou, Yanglong |
| author_facet | Mian, Wang Zhang, Qian Jing, Shuai Li, Xiang-Guo Hou, Yanglong |
| contents | Recent research has revealed that the Cr family perovskite ReCrO$_3$ exhibits intriguing magnetic coupling interactions within Cr pairs, which may not follow the Goodenough-Kanamori (GK) rules due to the t-e hybridization between Cr$^\mathrm{III}$ ions. We investigate the complex magnetism involving both t-e hybridization and Re-$f$ orbitals in the molecular analogue of perovskite [$\mathrm{Ce_2^{III}Ce^{IV}Cr_8^{III}O_8(O_2CPh)_{18}(HO_2CPh)}$] ($\mathrm{Ce_3Cr_8}$) using first-principles method. Our results have shown that distinct from the bulk ReCrO$_3$, the superexchange via Cr-$d$ and O-$p$ orbitals can exhibit a unexpected dominate ferromagnetic (FM) Cr-O-Cr superexchange interaction in $\mathrm{Ce_3Cr_8}$ due to the strong t-e hybridization originated from the distorted molecular structure. The great sensitivity of the t-e hybridization with respect to the molecular structure, e.g., the angle of Cr-O-Cr, can lead to a ground state transition from ferromagnetic to antiferromagnetic state with the changes in the angle of Cr-O-Cr. The Ce-$f$ orbitals near the Fermi level can reduce this sensitivity through interacting with the Cr-$d$ orbitals via the virtual charge transfer process. Our results are strongly supported by a modified superexchange model based on the t-e hybridization theory. These findings complete the theory of superexchange magnetism involving the t-e hybridization and $f$ orbitals, and in the meanwhile introduce a new avenue for fine-tuning the magnetic characteristics via Tm-d/Re-f interactions at nanoscale. |
| format | Preprint |
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arxiv_https___arxiv_org_abs_2403_07574 |
| institution | arXiv |
| publishDate | 2024 |
| record_format | arxiv |
| spellingShingle | Direct observation of strong t-e orbital hybridization and the effects of f orbitals Mian, Wang Zhang, Qian Jing, Shuai Li, Xiang-Guo Hou, Yanglong Mesoscale and Nanoscale Physics Strongly Correlated Electrons Recent research has revealed that the Cr family perovskite ReCrO$_3$ exhibits intriguing magnetic coupling interactions within Cr pairs, which may not follow the Goodenough-Kanamori (GK) rules due to the t-e hybridization between Cr$^\mathrm{III}$ ions. We investigate the complex magnetism involving both t-e hybridization and Re-$f$ orbitals in the molecular analogue of perovskite [$\mathrm{Ce_2^{III}Ce^{IV}Cr_8^{III}O_8(O_2CPh)_{18}(HO_2CPh)}$] ($\mathrm{Ce_3Cr_8}$) using first-principles method. Our results have shown that distinct from the bulk ReCrO$_3$, the superexchange via Cr-$d$ and O-$p$ orbitals can exhibit a unexpected dominate ferromagnetic (FM) Cr-O-Cr superexchange interaction in $\mathrm{Ce_3Cr_8}$ due to the strong t-e hybridization originated from the distorted molecular structure. The great sensitivity of the t-e hybridization with respect to the molecular structure, e.g., the angle of Cr-O-Cr, can lead to a ground state transition from ferromagnetic to antiferromagnetic state with the changes in the angle of Cr-O-Cr. The Ce-$f$ orbitals near the Fermi level can reduce this sensitivity through interacting with the Cr-$d$ orbitals via the virtual charge transfer process. Our results are strongly supported by a modified superexchange model based on the t-e hybridization theory. These findings complete the theory of superexchange magnetism involving the t-e hybridization and $f$ orbitals, and in the meanwhile introduce a new avenue for fine-tuning the magnetic characteristics via Tm-d/Re-f interactions at nanoscale. |
| title | Direct observation of strong t-e orbital hybridization and the effects of f orbitals |
| topic | Mesoscale and Nanoscale Physics Strongly Correlated Electrons |
| url | https://arxiv.org/abs/2403.07574 |