Optical Evidence of Itinerant-Localized Crossover of 4f Electrons in Cerium Compounds

Optical Evidence of Itinerant-Localized Crossover of 4f Electrons in Cerium Compounds

Cerium (Ce)-based heavy-fermion materials have a characteristic double-peak structure (mid-IR peak) in the optical conductivity [σ(ω)] spectra originating from the strong conduction (c)-f electron hybridization. To clarify the behavior of the mid-IR peak at a low c-f hybridization strength, we compa...

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Veröffentlicht in:Journal of the Physical Society of Japan 2016-08, Vol.85 (8), p.1-1
Hauptverfasser: Kimura, Shin-ichi, Kwon, Yong Seung, Matsumoto, Yuji, Aoki, Haruyoshi, Sakai, Osamu
Format: Artikel
Sprache:eng
Schlagworte:
Antiferromagnetism
Cerium
Chemical compounds
Conductivity
Coulomb friction
Crossovers
Electronic structure
Electrons
Hybridization
Impurities
Mathematical models
Quantum physics
Spectra
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Zusammenfassung:Cerium (Ce)-based heavy-fermion materials have a characteristic double-peak structure (mid-IR peak) in the optical conductivity [σ(ω)] spectra originating from the strong conduction (c)-f electron hybridization. To clarify the behavior of the mid-IR peak at a low c-f hybridization strength, we compared the (ω) spectra of the isostructural antiferromagnetic and heavy-fermion Ce compounds with the calculated unoccupied density of states and the spectra obtained from the impurity Anderson model. With decreasing c-f hybridization intensity, the mid-IR peak shifts to the low-energy side owing to the renormalization of the unoccupied 4f state, but suddenly shifts to the high-energy side owing to the f-f on-site Coulomb interaction at a slight localized side from the quantum critical point (QCP). This finding gives us information on the change in the electronic structure across QCP.
ISSN:0031-9015
1347-4073
DOI:10.7566/jpsj.85.083702