Spin excitation of Co atoms at monatomic Cu chains

Spin excitation of Co atoms at monatomic Cu chains

The zero-bias anomaly in conductance spectra of single Co atoms on Cu(111) observed at \(\approx\) 4 K, which has been interpreted as being due to a Kondo resonance, is strongly modified when the Co atoms are attached to monatomic Cu chains. Scanning tunneling spectra measured at 340 mK in magnetic...

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Veröffentlicht in:arXiv.org 2023-03
Hauptverfasser: Noei, Neda, Mozara, Roberto, Montero, Ana M, Brinker, Sascha, Ide, Niklas, Guimarães, Filipe S M, Lichtenstein, Alexander I, Berndt, Richard, Lounis, Samir, Weismann, Alexander
Format: Artikel
Sprache:eng
Schlagworte:
Chains
Density functional theory
Excitation
Kondo effect
Magnetic anisotropy
Magnetic fields
Spectra
Spin-orbit interactions
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Zusammenfassung:The zero-bias anomaly in conductance spectra of single Co atoms on Cu(111) observed at \(\approx\) 4 K, which has been interpreted as being due to a Kondo resonance, is strongly modified when the Co atoms are attached to monatomic Cu chains. Scanning tunneling spectra measured at 340 mK in magnetic fields exhibit all characteristics of spin-flip excitations. Their dependence on the magnetic field reveals a magnetic anisotropy and suggests a non-collinear spin state. This indicates that spin-orbit coupling (SOC), which has so far been neglected in theoretical studies of Co/Cu(111), has to be taken into account. According to our density functional theory and multi-orbital quantum Monte Carlo calculations SOC suppresses the Kondo effect for all studied geometries.
ISSN:2331-8422