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Demonstrating Kondo behavior by temperature-dependent scanning tunneling spectroscopy

Elia Turco, Markus Aapro, Somesh Chandra Ganguli, Nils Krane, Robert Drost, Nahual Sobrino, Annika Bernhardt, Michal Jurı́ček, Román Fasel, Pascal Ruffieux, Peter Liljeroth, David Jacob

2024Physical Review Research11 citationsDOIOpen Access PDF

Abstract

The Kondo effect describes the scattering of conduction electrons by magnetic impurities, manifesting as an electronic resonance at the Fermi energy with a distinctive temperature evolution. In this Letter, we present a critical evaluation of the current methodology employed to demonstrate Kondo behavior in transport measurements, underscoring the limitations of established theoretical frameworks and the influence of extrinsic broadening. We introduce an approach for analyzing spectroscopic indicators of the Kondo effect, employing the Hurwitz-Fano lineshape as a model for the Kondo resonance in the presence of extrinsic broadening. Through precise scanning tunneling spectroscopy measurements on an exemplary spin-1/2 Kondo system, phenalenyl on Au(111), we demonstrate the efficacy of our proposed protocol in extracting accurate intrinsic Kondo linewidths from finite-temperature measurements. The extracted linewidths exhibit a robust fit with a recently derived expression for the temperature-dependent intrinsic Kondo linewidth, providing compelling evidence for the validity of the underlying theory. Published by the American Physical Society 2024

Topics & Concepts

Kondo effectKondo insulatorCondensed matter physicsAnderson impurity modelLaser linewidthQuantum tunnellingScanning tunneling spectroscopyImpurityResonance (particle physics)SpectroscopyPhysicsElectronChemistryFano resonanceScatteringMagnetic impurityQuantum mechanicsPlasmonLaserQuantum and electron transport phenomenaRare-earth and actinide compoundsMolecular Junctions and Nanostructures
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