Mott transition and kondo screening in f-electron metals

L. De'Medici; A. Georges; G. Kotliar; S. Biermann

doi:10.1103/PhysRevLett.95.066402

Mott transition and kondo screening in f-electron metals

L. De'Medici
, A. Georges
, G. Kotliar
, S. Biermann

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

Abstract

We study how a finite hybridization between a narrow correlated band and a wide conduction band affects the Mott transition. At zero temperature, the hybridization is found to be a relevant perturbation, so that the Mott transition is suppressed by Kondo screening. In contrast, a first-order transition remains at finite temperature, separating a local-moment phase and a Kondo-screened phase. The first-order transition line terminates in two critical end points. Implications for experiments on f-electron materials such as the cerium alloy Ce0.8La0.1Th0.1 are discussed.

Original language	English
Article number	066402
Journal	Physical Review Letters
Volume	95
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevLett.95.066402
Publication status	Published - 5 Aug 2005

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10.1103/PhysRevLett.95.066402

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abstract = "We study how a finite hybridization between a narrow correlated band and a wide conduction band affects the Mott transition. At zero temperature, the hybridization is found to be a relevant perturbation, so that the Mott transition is suppressed by Kondo screening. In contrast, a first-order transition remains at finite temperature, separating a local-moment phase and a Kondo-screened phase. The first-order transition line terminates in two critical end points. Implications for experiments on f-electron materials such as the cerium alloy Ce0.8La0.1Th0.1 are discussed.",

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AU - Georges, A.

AU - Kotliar, G.

AU - Biermann, S.

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N2 - We study how a finite hybridization between a narrow correlated band and a wide conduction band affects the Mott transition. At zero temperature, the hybridization is found to be a relevant perturbation, so that the Mott transition is suppressed by Kondo screening. In contrast, a first-order transition remains at finite temperature, separating a local-moment phase and a Kondo-screened phase. The first-order transition line terminates in two critical end points. Implications for experiments on f-electron materials such as the cerium alloy Ce0.8La0.1Th0.1 are discussed.

AB - We study how a finite hybridization between a narrow correlated band and a wide conduction band affects the Mott transition. At zero temperature, the hybridization is found to be a relevant perturbation, so that the Mott transition is suppressed by Kondo screening. In contrast, a first-order transition remains at finite temperature, separating a local-moment phase and a Kondo-screened phase. The first-order transition line terminates in two critical end points. Implications for experiments on f-electron materials such as the cerium alloy Ce0.8La0.1Th0.1 are discussed.

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DO - 10.1103/PhysRevLett.95.066402

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VL - 95

JO - Physical Review Letters

JF - Physical Review Letters

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Mott transition and kondo screening in f-electron metals

Abstract

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