We clarify the origin of the strikingly different spectroscopic properties of the chemically similar compounds NaOsO3 and LiOsO3. Our first-principle, many-body analysis demonstrates that the highly sensitive physics of these two materials is controlled by their proximity to an adjacent Hund's-Mott insulating phase. Although 5d oxides are mildly correlated, we show that the cooperative action of intraorbital repulsion and Hund's exchange becomes the dominant physical mechanism in these materials if their t2g shell is half filled. Small material specific details hence result in an extremely sharp change of the electronic mobility, explaining the surprisingly different properties of the paramagnetic high-temperature phases of the two compounds.
Springer D., Kim B., Liu P., Khmelevskyi S., Adler S., Capone M., et al. (2020). Osmates on the Verge of a Hund's-Mott Transition: The Different Fates of NaOsO3 and LiOsO3. PHYSICAL REVIEW LETTERS, 125(16), 1-6 [10.1103/PhysRevLett.125.166402].
Osmates on the Verge of a Hund's-Mott Transition: The Different Fates of NaOsO3 and LiOsO3
Franchini C.Penultimo
Supervision
;
2020
Abstract
We clarify the origin of the strikingly different spectroscopic properties of the chemically similar compounds NaOsO3 and LiOsO3. Our first-principle, many-body analysis demonstrates that the highly sensitive physics of these two materials is controlled by their proximity to an adjacent Hund's-Mott insulating phase. Although 5d oxides are mildly correlated, we show that the cooperative action of intraorbital repulsion and Hund's exchange becomes the dominant physical mechanism in these materials if their t2g shell is half filled. Small material specific details hence result in an extremely sharp change of the electronic mobility, explaining the surprisingly different properties of the paramagnetic high-temperature phases of the two compounds.| File | Dimensione | Formato | |
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