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Terahertz conductivity of heavy-fermion systems from time-resolved spectroscopy

descriptionPublicationkeyboard_double_arrow_right Article , Preprint , Other literature type 24 Aug 2020Embargo end date: 01 Jan 2020 Switzerland, Germany Publisher:American Physical Society (APS)Journal:Physical Review Research, volume 2 (eissn: 2643-1564, Copyright policy )Funded by:SNSF | Dynamical processes in sy..., DFG | unidentified, NSF | The Development and Field... +1 projects
Authors: Chia-Jung Yang; Shovon Pal; Farzaneh Zamani; Kristin Kliemt; Cornelius Krellner; Oliver Stockert; Hilbert v. Löhneysen; +2 Authors

doi: 10.1103/physrevresearch.2.033296 , 10.3929/ethz-b-000457268 , 10.5445/ir/1000129762 , 10.48550/arxiv.2004.07719

arXiv: http://arxiv.org/abs/2004.07719 , 2004.07719

Terahertz conductivity of heavy-fermion systems from time-resolved spectroscopy

Abstract

The Drude model describes the free-electron conduction in simple metals, governed by the freedom that the mobile electrons have within the material. In strongly correlated systems, however, a significant deviation of the optical conductivity from the simple metallic Drude behavior is observed. Here, we investigate the optical conductivity of the heavy-fermion system CeCu6−xAux , using time-resolved, phase-sensitive terahertz spectroscopy. The terahertz electric field creates two types of excitations in heavy-fermion materials: First, the intraband excitations that leave the heavy quasiparticles intact. Second, the resonant interband transitions between the heavy and light parts of the hybridized conduction band that break the Kondo singlet. We find that the Kondo-singlet-breaking interband transitions do not create a Drude peak, while the Kondo-retaining intraband excitations yield the expected Drude response. This makes it possible to separate these two fundamentally different correlated contributions to the optical conductivity.

Physical Review Research, 2 (3)

ISSN:2643-1564

Countries
Switzerland, Germany
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Keywords

Condensed Matter - Materials Science, Strongly Correlated Electrons (cond-mat.str-el), Physics, QC1-999, ddc:530, 500, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, HEAVY FERMIONS (CONDENSED MATTER PHYSICS), 530, Time-resolved THz Spectroscopy; HEAVY FERMIONS (CONDENSED MATTER PHYSICS), Condensed Matter - Strongly Correlated Electrons, Time-resolved THz Spectroscopy, info:eu-repo/classification/ddc/530

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