Temperature-dependent Fermi surface evolution in heavy fermion CeIrIn 5

Hong Chul Choi; B. I. Min; J. H. Shim; K. Haule; G. Kotliar

doi:10.1103/PhysRevLett.108.016402

Temperature-dependent Fermi surface evolution in heavy fermion CeIrIn ₅

Hong Chul Choi, B. I. Min, J. H. Shim, K. Haule, G. Kotliar

School of Arts and Sciences, New High Energy Theory Center

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

67 Scopus citations

Abstract

We address theoretically the evolution of the heavy fermion Fermi surface (FS) as a function of temperature (T), using a first principles dynamical mean-field theory approach combined with density functional theory. We focus on the archetypical heavy electrons in CeIrIn ₅. Upon cooling, both the quantum oscillation frequencies and cyclotron masses show logarithmic scaling behavior [∼ln (T ₀/T)] with different characteristic temperatures T ₀=130 and 50 K, respectively. The enlargement of the electron FSs at low T is accompanied by topological changes around T=10-50K. The resistivity coherence peak observed at T 50K is the result of the competition between the binding of incoherent 4f electrons to the spd conduction electrons at Fermi level (E _F) and the formation of coherent 4f electrons.

Original language	English (US)
Article number	016402
Journal	Physical review letters
Volume	108
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevLett.108.016402
State	Published - Jan 5 2012

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.108.016402

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title = "Temperature-dependent Fermi surface evolution in heavy fermion CeIrIn 5 ",

abstract = "We address theoretically the evolution of the heavy fermion Fermi surface (FS) as a function of temperature (T), using a first principles dynamical mean-field theory approach combined with density functional theory. We focus on the archetypical heavy electrons in CeIrIn 5. Upon cooling, both the quantum oscillation frequencies and cyclotron masses show logarithmic scaling behavior [∼ln (T 0/T)] with different characteristic temperatures T 0=130 and 50 K, respectively. The enlargement of the electron FSs at low T is accompanied by topological changes around T=10-50K. The resistivity coherence peak observed at T 50K is the result of the competition between the binding of incoherent 4f electrons to the spd conduction electrons at Fermi level (E F) and the formation of coherent 4f electrons.",

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AU - Choi, Hong Chul

AU - Min, B. I.

AU - Shim, J. H.

AU - Haule, K.

AU - Kotliar, G.

PY - 2012/1/5

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N2 - We address theoretically the evolution of the heavy fermion Fermi surface (FS) as a function of temperature (T), using a first principles dynamical mean-field theory approach combined with density functional theory. We focus on the archetypical heavy electrons in CeIrIn 5. Upon cooling, both the quantum oscillation frequencies and cyclotron masses show logarithmic scaling behavior [∼ln (T 0/T)] with different characteristic temperatures T 0=130 and 50 K, respectively. The enlargement of the electron FSs at low T is accompanied by topological changes around T=10-50K. The resistivity coherence peak observed at T 50K is the result of the competition between the binding of incoherent 4f electrons to the spd conduction electrons at Fermi level (E F) and the formation of coherent 4f electrons.

AB - We address theoretically the evolution of the heavy fermion Fermi surface (FS) as a function of temperature (T), using a first principles dynamical mean-field theory approach combined with density functional theory. We focus on the archetypical heavy electrons in CeIrIn 5. Upon cooling, both the quantum oscillation frequencies and cyclotron masses show logarithmic scaling behavior [∼ln (T 0/T)] with different characteristic temperatures T 0=130 and 50 K, respectively. The enlargement of the electron FSs at low T is accompanied by topological changes around T=10-50K. The resistivity coherence peak observed at T 50K is the result of the competition between the binding of incoherent 4f electrons to the spd conduction electrons at Fermi level (E F) and the formation of coherent 4f electrons.

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Temperature-dependent Fermi surface evolution in heavy fermion CeIrIn ₅

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