Optical and acoustic plasmons in the layered material Sr2RuO4
J. Schultz, A. Lubk, F. Jerzembeck, N. Kikugawa, M. Knupfer, D. Wolf, B. Büchner, J. Fink

TL;DR
The paper studies plasmons in Sr2RuO4, a strange metal, and finds that they behave differently from predictions of holographic theories.
Contribution
The study reveals unrenormalized plasmon behavior in Sr2RuO4 using transmission EELS, contrasting with overdamping predictions.
Findings
Optical and acoustic plasmons in Sr2RuO4 exhibit quadratic and linear dispersion, respectively.
Correlation effects enhance acoustic plasmon velocity at low energies.
No signs of over-damped plasmons are observed, contradicting holographic theory predictions.
Abstract
The perfect linear temperature dependence of the electrical resistivity in a variety of “strange” metals is a real puzzle in condensed matter physics. For these materials also other non-Fermi liquid properties are predicted or detected. In particular we mention the results derived from holographic theories which conclude that plasmons should be overdamped due to a low energy continuum in the electronic susceptibility. These predictions were supported by electron energy-loss spectroscopy in reflection on cuprates and ruthenates. Here we use electron energy-loss spectroscopy in transmission to study collective charge excitations in the layer metal Sr2RuO4. This metal has a transition from a perfect Fermi liquid below T ≈ 30 K into a “strange” metal phase above T ≈ 800 K. In this compound we cover a complete range between in-phase and out-of-phase oscillations. Outside the classical range…
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Taxonomy
TopicsAdvanced Condensed Matter Physics · Physics of Superconductivity and Magnetism · High-pressure geophysics and materials
