Topics
optimizationCultivar (cultivated variety)
LEEDTopical concept
The experimental and theoretical surface band structures of Mo(112) are compared. This surface band structure mapping is presented with corrections included for the lattice relaxation of the Mo(112) surface. Quantitative low energy electron diffraction (LEED) has been used to determine the details of the Mo(112) surface structure. The first layer contraction is 14.9% by LEED intensity versus voltage analysis and is in general agreement with the 17.6% contraction found from total surface energy optimization. The electronic band structure is mapped out along ¯– ¯ X and ¯–¯Y of the surface Brillouin zone (SBZ). There is strong evidence of electron–phonon coupling particularly in the region of the Fermi level band crossing at 0.54 °A −1
The influence of the uniform surface contraction, observed at room temperature for Mo and W (100), o...
First-principles calculations of the geometric and electronic structures of a single layer of molybd...
We report results for the surface band structures of molybdenum and tungsten (001) surfaces by emplo...
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...
The experimental band structure of Mo(112) and the effects by temperature and adsorbate are presente...
Both the experimental and theoretical band structure of the W(112) surface are presented, with the t...
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...
Recent photoemission and inverse photoemission results for the Mo(112) surface are discussed in the ...
The electronic structures, many-body interactions and Fermi surface topologies of Au/Mo(112) were in...
The electronic structures, many-body interactions and Fermi surface topologies of Au/Mo(112) were in...
A comprehensive examination of the Fermi surface of Mo(112) is presented. The Fermi surface contours...
The electronic structure of the ideal (001) surface of Mo is calculated using a parametrized linear ...
The influence of the uniform surface contraction, observed at room temperature for Mo and W (100), o...
First-principles calculations of the geometric and electronic structures of a single layer of molybd...
We report results for the surface band structures of molybdenum and tungsten (001) surfaces by emplo...
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...
The experimental band structure of Mo(112) and the effects by temperature and adsorbate are presente...
Both the experimental and theoretical band structure of the W(112) surface are presented, with the t...
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...
Recent photoemission and inverse photoemission results for the Mo(112) surface are discussed in the ...
The electronic structures, many-body interactions and Fermi surface topologies of Au/Mo(112) were in...
The electronic structures, many-body interactions and Fermi surface topologies of Au/Mo(112) were in...
A comprehensive examination of the Fermi surface of Mo(112) is presented. The Fermi surface contours...
The electronic structure of the ideal (001) surface of Mo is calculated using a parametrized linear ...
The influence of the uniform surface contraction, observed at room temperature for Mo and W (100), o...
First-principles calculations of the geometric and electronic structures of a single layer of molybd...
We report results for the surface band structures of molybdenum and tungsten (001) surfaces by emplo...
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