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Prochaska, L. Li, X. MacFarland, DC. Andrews, AM. Bonta, M. Bianco, EF. Yazdi, S. Schrenk, W. Detz, H. Limbeck, A. Si, Q. Ringe, E. Strasser, G. Kono, J. Paschen, S.
Original Title
Singular charge fluctuations at a magnetic quantum critical point
Type
journal article in Web of Science
Language
English
Original Abstract
Strange metal behavior is ubiquitous in correlated materials, ranging from cuprate superconductors to bilayer graphene, and may arise from physics beyond the quantum fluctuations of a Landau order parameter. In quantum-critical heavy-fermion antiferromagnets, such physics may be realized as critical Kondo entanglement of spin and charge and probed with optical conductivity. We present terahertz time-domain transmission spectroscopy on molecular beam epitaxy-grown thin films of YbRh2Si2, a model strange-metal compound. We observed frequency over temperature scaling of the optical conductivity as a hallmark of beyond-Landau quantum criticality. Our discovery suggests that critical charge fluctuations play a central role in the strange metal behavior, elucidating one of the long-standing mysteries of correlated quantum matter.
Keywords
SINGLE-CRYSTAL GROWTH; CRITICAL-BEHAVIOR; HEAVY; TEMPERATURE; YBRH2SI2; CONDUCTIVITY; DESTRUCTION; SILICON; METALS
Authors
Prochaska, L.; Li, X.; MacFarland, DC.; Andrews, AM.; Bonta, M.; Bianco, EF.; Yazdi, S.; Schrenk, W.; Detz, H.; Limbeck, A.; Si, Q.; Ringe, E.; Strasser, G.; Kono, J.; Paschen, S.
Released
17. 1. 2020
Publisher
AMER ASSOC ADVANCEMENT SCIENCE
Location
WASHINGTON
ISBN
1095-9203
Periodical
SCIENCE
Year of study
367
Number
6475
State
United States of America
Pages from
285
Pages to
+
Pages count
21
URL
https://science.sciencemag.org/content/367/6475/285.abstract