Add to ORKGBoth the experimental and theoretical band structure of the W(112) surface are presented, with the theoretical band structure calculated by the film–LAPW (linearized augmented plane waves) method. The results permit one to compare the W(112) and Mo(112) band structures and illuminate the similarities. It is found that for the W(112) surface the main photoemission features combine contributions from both the surface and bulk, as has been previously noted for Mo(112). The main differences between the electronic structures of the furrowed W(112) and Mo(112) surfaces are seen in the width of occupied bands. The differences are attributed to the extent of localization of valence 4d and 5s electrons in Mo and 5d and 6s electrons in W
We report results of synchrotron angular resolved photoemission experiments from W(111) together wit...
A comprehensive examination of the Fermi surface of Mo(112) is presented. The Fermi surface contours...
The H-induced shift of the surface-atom core-level binding energy in W(110) is shown to arise from ...
Both the experimental and theoretical band structure of the W(112) surface are presented, with the t...
The experimental and theoretical surface band structures of Mo(112) are compared. This surface band ...
The experimental and theoretical surface band structures of Mo(112) are compared. This surface band ...
We present a comprehensive examination of the occupied surface-weighted band structure of Mo(112) al...
Recent photoemission and inverse photoemission results for the Mo(112) surface are discussed in the ...
The experimental band structure of Mo(112) and the effects by temperature and adsorbate are presente...
A detailed analysis of W(111) surface has been carried out by means of photoemission spectroscopy, t...
The adsorption of two very different adsorbates, gold and oxygen, induce the formation of a (3 × 1) ...
We report results for the surface band structures of molybdenum and tungsten (001) surfaces by emplo...
High-resolution 4f photoemission spectra from clean W(110) show that the natural lifetime width an...
The experimental band structure of Mo(112) and the effects by temperature and adsorbate are present...
We investigated the electron–phonon coupling (EPC), in the vicinity of the Fermi level, for the surf...
We report results of synchrotron angular resolved photoemission experiments from W(111) together wit...
A comprehensive examination of the Fermi surface of Mo(112) is presented. The Fermi surface contours...
The H-induced shift of the surface-atom core-level binding energy in W(110) is shown to arise from ...
Both the experimental and theoretical band structure of the W(112) surface are presented, with the t...
The experimental and theoretical surface band structures of Mo(112) are compared. This surface band ...
The experimental and theoretical surface band structures of Mo(112) are compared. This surface band ...
We present a comprehensive examination of the occupied surface-weighted band structure of Mo(112) al...
Recent photoemission and inverse photoemission results for the Mo(112) surface are discussed in the ...
The experimental band structure of Mo(112) and the effects by temperature and adsorbate are presente...
A detailed analysis of W(111) surface has been carried out by means of photoemission spectroscopy, t...
The adsorption of two very different adsorbates, gold and oxygen, induce the formation of a (3 × 1) ...
We report results for the surface band structures of molybdenum and tungsten (001) surfaces by emplo...
High-resolution 4f photoemission spectra from clean W(110) show that the natural lifetime width an...
The experimental band structure of Mo(112) and the effects by temperature and adsorbate are present...
We investigated the electron–phonon coupling (EPC), in the vicinity of the Fermi level, for the surf...
We report results of synchrotron angular resolved photoemission experiments from W(111) together wit...
A comprehensive examination of the Fermi surface of Mo(112) is presented. The Fermi surface contours...
The H-induced shift of the surface-atom core-level binding energy in W(110) is shown to arise from ...