Keizo Nagaoka scite author profile

Recent advances in scanning tunneling microscopy have allowed the observation of the Kondo effect for individual magnetic atoms. One hallmark of the Kondo effect is a strong temperature-induced broadening of the Kondo resonance. In order to test this prediction for individual impurities, we have investigated the temperature dependent electronic structure of isolated Ti atoms on Ag(100). We find that the Kondo resonance is strongly broadened in the temperature range T = 6.8 K to T = 49.0 K. These results are in good agreement with theoretical predictions for Kondo impurities in the Fermi liquid regime, and confirm the role of electron-electron scattering as the main thermal broadening mechanism.

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Spatially Dependent Inelastic Tunneling in a Single Metallofullerene

Grobis

Khoo

Yamachika

et al. 2005

Phys. Rev. Lett.

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We have measured the elastic and inelastic tunneling properties of isolated Gd@C(82) molecules on Ag(001) using cryogenic scanning tunneling spectroscopy. We find that the dominant inelastic channel is spatially well localized to a particular region of the molecule. Ab initio pseudopotential density-functional theory calculations indicate that this channel arises from a vibrational cage mode. We further show that the observed inelastic tunneling localization is explained by strong localization in the molecular electron-phonon coupling to this mode.

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Origin of flat morphology and high crystallinity of ultrathin bismuth films

et al. 2007

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Keizo Nagaoka

Temperature Dependence of a Single Kondo Impurity

Spatially Dependent Inelastic Tunneling in a Single Metallofullerene

Origin of flat morphology and high crystallinity of ultrathin bismuth films

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