Lifshitz transition driven by spin fluctuations and spin-orbit renormalization in NaOsO3

Bongjae Kim; Peitao Liu; Zeynep Ergönenc; Alessandro Toschi; Sergii Khmelevskyi; Cesare Franchini

doi:10.1103/PhysRevB.94.241113

Lifshitz transition driven by spin fluctuations and spin-orbit renormalization in NaOsO3

Bongjae Kim, Peitao Liu, Zeynep Ergönenc, Alessandro Toschi, Sergii Khmelevskyi, Cesare Franchini

Research output: Contribution to journal › Article › peer-review

38 Scopus citations

Abstract

In systems where electrons form both dispersive bands and small local spins, we show that changes in the spin configuration can tune the bands through a Lifshitz transition, resulting in a continuous metal-insulator transition associated with a progressive change in the Fermi surface topology. In contrast to the Mott-Hubbard and Slater pictures, this spin-driven Lifshitz transition appears in systems with a small electron-electron correlation and large hybridization. We show that this situation is realized in 5d distorted perovskites with half-filled t2g bands such as NaOsO3, where the strong p-d hybridization reduces the local moment, and spin-orbit coupling causes a large renormalization of the electronic mobility. This weakens the role of electronic correlations and drives the system towards an itinerant magnetic regime which enables spin fluctuations.

Original language	English
Article number	241113
Journal	Physical Review B
Volume	94
Issue number	24
DOIs	https://doi.org/10.1103/PhysRevB.94.241113
State	Published - 21 Dec 2016

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title = "Lifshitz transition driven by spin fluctuations and spin-orbit renormalization in NaOsO3",

abstract = "In systems where electrons form both dispersive bands and small local spins, we show that changes in the spin configuration can tune the bands through a Lifshitz transition, resulting in a continuous metal-insulator transition associated with a progressive change in the Fermi surface topology. In contrast to the Mott-Hubbard and Slater pictures, this spin-driven Lifshitz transition appears in systems with a small electron-electron correlation and large hybridization. We show that this situation is realized in 5d distorted perovskites with half-filled t2g bands such as NaOsO3, where the strong p-d hybridization reduces the local moment, and spin-orbit coupling causes a large renormalization of the electronic mobility. This weakens the role of electronic correlations and drives the system towards an itinerant magnetic regime which enables spin fluctuations.",

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AU - Kim, Bongjae

AU - Liu, Peitao

AU - Ergönenc, Zeynep

AU - Toschi, Alessandro

AU - Khmelevskyi, Sergii

AU - Franchini, Cesare

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N2 - In systems where electrons form both dispersive bands and small local spins, we show that changes in the spin configuration can tune the bands through a Lifshitz transition, resulting in a continuous metal-insulator transition associated with a progressive change in the Fermi surface topology. In contrast to the Mott-Hubbard and Slater pictures, this spin-driven Lifshitz transition appears in systems with a small electron-electron correlation and large hybridization. We show that this situation is realized in 5d distorted perovskites with half-filled t2g bands such as NaOsO3, where the strong p-d hybridization reduces the local moment, and spin-orbit coupling causes a large renormalization of the electronic mobility. This weakens the role of electronic correlations and drives the system towards an itinerant magnetic regime which enables spin fluctuations.

AB - In systems where electrons form both dispersive bands and small local spins, we show that changes in the spin configuration can tune the bands through a Lifshitz transition, resulting in a continuous metal-insulator transition associated with a progressive change in the Fermi surface topology. In contrast to the Mott-Hubbard and Slater pictures, this spin-driven Lifshitz transition appears in systems with a small electron-electron correlation and large hybridization. We show that this situation is realized in 5d distorted perovskites with half-filled t2g bands such as NaOsO3, where the strong p-d hybridization reduces the local moment, and spin-orbit coupling causes a large renormalization of the electronic mobility. This weakens the role of electronic correlations and drives the system towards an itinerant magnetic regime which enables spin fluctuations.

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Lifshitz transition driven by spin fluctuations and spin-orbit renormalization in NaOsO3

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