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TT: Fachverband Tiefe Temperaturen

TT 27: Correlated Electrons: Other Materials

TT 27.3: Vortrag

Dienstag, 19. März 2024, 10:00–10:15, H 3010

The Lorenz ratio as a guide to scattering contributions to Planckian transport — •Fei Sun¹, Simli Mishra¹, Ulrike Stockert¹, Ramzy Daou², Naoki Kikugawa³, Robin S. Perry^4,5, Elena Hassinger¹, Sean A. Hartnoll⁶, Andrew P. Mackenzie^1,7, and Veronika Sunko^1,8 — ¹MPI, CPfS, Dresden, Germany — ²CRISMAT, Caen, France — ³National Institute for Materials Science, Ibaraki, Japan — ⁴University College London, London, UK — ⁵ISIS Neutron and Muon Source, UK — ⁶University of Cambridge, Cambridge, UK — ⁷University of St. Andrews, St. Andrews, UK — ⁸University of California Berkeley, USA

A characteristic quantum-mechanical time scale of approximately ℏ/k_BT has been identified recently in both theory and experiment, leading to speculation that it may be the shortest meaningful time in many-body physics. It can be probed in depth by studying the scattering of electrons in solids, however, in metallic oxides, which are among the most studied materials, analysis of electrical transport does not satisfactorily identify the relevant scattering mechanism at high T near room temperature. We employ a contactless optical method to measure thermal diffusivity in two Ru-based layered perovskites, Sr₃Ru₂O₇ and Sr₂RuO₄, and use the measurements to extract the dimensionless Lorenz ratio. We show how the analysis of high-T thermal transport can both give important insight into dominant scattering mechanisms, and be offered as a stringent test of theories attempting to explain anomalous scattering.

Keywords: Planckian transport; Lorenz ratio; thermal transport; electron-electron scattering