Litcius/Paper detail

Inducing and tuning Kondo screening in a narrow-electronic-band system

Shiwei Shen, Chenhaoping Wen, Pengfei Kong, Jingjing Gao, Jianguo Si, Xuan Luo, Wenjian Lu, Yuping Sun, Gang Chen, Shichao Yan

2022Nature Communications30 citationsDOIOpen Access PDF

Abstract

Abstract Although the single-impurity Kondo physics has already been well understood, the understanding of the Kondo lattice where a dense array of local moments couples to the conduction electrons is still far from complete. The ability of creating and tuning the Kondo lattice in non- f -electron systems will be great helpful for further understanding the Kondo lattice behavior. Here we show that the Pb intercalation in the charge-density-wave-driven narrow-electronic-band system 1 T -TaS 2 induces a transition from the insulating gap to a sharp Kondo resonance in the scanning tunneling microscopy measurements. It results from the Kondo screening of the localized moments in the 13-site Star-of-David clusters of 1 T -TaS 2 . As increasing the Pb concentration, the narrow electronic band derived from the localized electrons shifts away from the Fermi level and the Kondo resonance peak is gradually suppressed. Our results pave the way for creating and tuning many-body electronic states in layered narrow-electronic-band materials.

Topics & Concepts

Kondo insulatorKondo effectCondensed matter physicsPhysicsElectronFermi levelLattice (music)Conduction bandQuantum tunnellingResonance (particle physics)Electronic structureAnderson impurity modelMagnetic momentThermal conductionBand gapFermi energyScanning tunneling microscopeElectronic systemsMaterials scienceStrongly correlated materialLattice model (finance)Rare-earth and actinide compoundsQuantum and electron transport phenomenaAdvanced Physical and Chemical Molecular Interactions