Electronic structure of the heavy fermion metal LiV2O4

V. I. Anisimov; M. A. Korotin; M. Zölfl; T. Pruschke; K. le Hur; T. M. Rice

doi:10.1103/PhysRevLett.83.364

Electronic structure of the heavy fermion metal LiV₂O₄

V. I. Anisimov
, M. A. Korotin
, M. Zölfl
, T. Pruschke
, K. le Hur
, T. M. Rice

Institute of Metal Physics
Regensburg University
ETH Zurich

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

Abstract

The electronic structure of the first reported heavy fermion compound without f electrons, LiV₂O₄, was studied by an ab initio calculation method. As a result of the trigonal splitting and d−d Coulomb interaction, one electron of the d^1.5 configuration of the V ion is localized and the rest partially fills a relatively broad conduction band. The effective Anderson impurity model was solved by the non-crossing-approximation method, leading to an estimation for the single-site Kondo energy scale T_K. Then, we show how the so-called exhaustion phenomenon of Nozières for the Kondo lattice leads to a remarkable decrease of the heavy-fermion (or coherence) energy scale T_coh≡T²_K/D (D is the typical bandwidth), comparable to the experimental result.

Original language	English
Pages (from-to)	364-367
Number of pages	4
Journal	Physical Review Letters
Volume	83
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevLett.83.364
Publication status	Published - 1 Jan 1999
Externally published	Yes

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10.1103/PhysRevLett.83.364

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title = "Electronic structure of the heavy fermion metal LiV2O4",

abstract = "The electronic structure of the first reported heavy fermion compound without f electrons, LiV2O4, was studied by an ab initio calculation method. As a result of the trigonal splitting and d−d Coulomb interaction, one electron of the d1.5 configuration of the V ion is localized and the rest partially fills a relatively broad conduction band. The effective Anderson impurity model was solved by the non-crossing-approximation method, leading to an estimation for the single-site Kondo energy scale TK. Then, we show how the so-called exhaustion phenomenon of Nozi{\`e}res for the Kondo lattice leads to a remarkable decrease of the heavy-fermion (or coherence) energy scale Tcoh≡T2K/D (D is the typical bandwidth), comparable to the experimental result.",

author = "Anisimov, \{V. I.\} and Korotin, \{M. A.\} and M. Z{\"o}lfl and T. Pruschke and \{le Hur\}, K. and Rice, \{T. M.\}",

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T1 - Electronic structure of the heavy fermion metal LiV2O4

AU - Anisimov, V. I.

AU - Korotin, M. A.

AU - Zölfl, M.

AU - Pruschke, T.

AU - le Hur, K.

AU - Rice, T. M.

PY - 1999/1/1

Y1 - 1999/1/1

N2 - The electronic structure of the first reported heavy fermion compound without f electrons, LiV2O4, was studied by an ab initio calculation method. As a result of the trigonal splitting and d−d Coulomb interaction, one electron of the d1.5 configuration of the V ion is localized and the rest partially fills a relatively broad conduction band. The effective Anderson impurity model was solved by the non-crossing-approximation method, leading to an estimation for the single-site Kondo energy scale TK. Then, we show how the so-called exhaustion phenomenon of Nozières for the Kondo lattice leads to a remarkable decrease of the heavy-fermion (or coherence) energy scale Tcoh≡T2K/D (D is the typical bandwidth), comparable to the experimental result.

AB - The electronic structure of the first reported heavy fermion compound without f electrons, LiV2O4, was studied by an ab initio calculation method. As a result of the trigonal splitting and d−d Coulomb interaction, one electron of the d1.5 configuration of the V ion is localized and the rest partially fills a relatively broad conduction band. The effective Anderson impurity model was solved by the non-crossing-approximation method, leading to an estimation for the single-site Kondo energy scale TK. Then, we show how the so-called exhaustion phenomenon of Nozières for the Kondo lattice leads to a remarkable decrease of the heavy-fermion (or coherence) energy scale Tcoh≡T2K/D (D is the typical bandwidth), comparable to the experimental result.

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DO - 10.1103/PhysRevLett.83.364

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VL - 83

SP - 364

EP - 367

JO - Physical Review Letters

JF - Physical Review Letters

IS - 2

ER -

Electronic structure of the heavy fermion metal LiV2O4

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Electronic structure of the heavy fermion metal LiV₂O₄