2008
DOI: 10.1103/physrevb.77.233409
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Surface state vs orbital Kondo resonance at Cr(001): Arguments for a surface state interpretation

Abstract: We have performed a combined scanning tunneling spectroscopy, photoemission, and inverse photoemission study of the surface electronic structure of Cr͑001͒. Our results show three surface-related features, one below, one above, and one right at the Fermi level E F . While the surface-sensitive features below and above the Fermi level show characteristics of d xz,yz orbital symmetry, the feature right at E F exhibits predominantly d z 2-like orbital symmetry. Upon exposure to oxygen, its spectral weight continu… Show more

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Cited by 18 publications
(25 citation statements)
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“…For β = 40 eV −1 the d z 2 orbital also shows a sharp resonance in the majority spin channel. Overall, the orbital contributions of the spectra are in line with experimental findings in reference [85].…”
Section: Electronic Structure Of the Cr(001) Surfacesupporting
confidence: 77%
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“…For β = 40 eV −1 the d z 2 orbital also shows a sharp resonance in the majority spin channel. Overall, the orbital contributions of the spectra are in line with experimental findings in reference [85].…”
Section: Electronic Structure Of the Cr(001) Surfacesupporting
confidence: 77%
“…For the surface atom we can observe a three-peak structure resembling the experimental situation (compare reference [85]). …”
Section: Electronic Structure Of the Cr(001) Surfacementioning
confidence: 65%
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“…However, the physical origin of this state is still controversial. 17,18 Originally interpreted as a d z 2-like surface state at energies close to the Fermi level, 19 an alternative explanation is an orbital Kondo resonance. 20 Although the exact nature of the electronic feature is unclear, it can serve as a characteristic marker for the presence of Cr.…”
Section: Growth Mode and Island-assisted Alloyingmentioning
confidence: 99%
“…As shown in Figure 1(c), an intense peak is located at 20meV above the Fermi level and is consistent with previous reports of the Shockely d-derived surface state. 26,31 PTCDA molecules (97%, Sigma-Aldrich) were evaporated from a heated quartz crucible and deposited onto a room temperature Cr(001) surface in a preparation chamber (base pressure <1×10 -9 Torr) connected to the UHV STM chamber by a gate valve. Deposition rate was monitored by a quartz crystal microbalance (QCM).…”
mentioning
confidence: 99%