Abstract
The probe of metal surface electronic structure and results of the oxidation of a BCC material and the first Joint Density of States interpretation of the spectrum from same metal have been presented. The surface sensitivity of RAS has been exploited when applied to a cubic single crystal to study the surface electronic structure of W(110) and the resulting chemisorption-induced changes upon exposure to oxygen. Oxidation of the surface is monitored until a final exposure of 10 Langmuirs is reached. A decrease of reflectance anisotropy signal is obtained with increasing oxygen coverage on the substrate and a coverage of {approx}0.75 ML results in zero anisotropy over the reflectance anisotropy energy range.
Zeybek, O
[1]
- Department of Physics, Balikesir University, Balikesir (Turkey)
Citation Formats
Zeybek, O.
An investigation of Oxygen adsorption on W(110) using reflectance anisotropy spectroscopy.
Turkey: N. p.,
2004.
Web.
Zeybek, O.
An investigation of Oxygen adsorption on W(110) using reflectance anisotropy spectroscopy.
Turkey.
Zeybek, O.
2004.
"An investigation of Oxygen adsorption on W(110) using reflectance anisotropy spectroscopy."
Turkey.
@misc{etde_20677357,
title = {An investigation of Oxygen adsorption on W(110) using reflectance anisotropy spectroscopy}
author = {Zeybek, O}
abstractNote = {The probe of metal surface electronic structure and results of the oxidation of a BCC material and the first Joint Density of States interpretation of the spectrum from same metal have been presented. The surface sensitivity of RAS has been exploited when applied to a cubic single crystal to study the surface electronic structure of W(110) and the resulting chemisorption-induced changes upon exposure to oxygen. Oxidation of the surface is monitored until a final exposure of 10 Langmuirs is reached. A decrease of reflectance anisotropy signal is obtained with increasing oxygen coverage on the substrate and a coverage of {approx}0.75 ML results in zero anisotropy over the reflectance anisotropy energy range.}
place = {Turkey}
year = {2004}
month = {Jul}
}
title = {An investigation of Oxygen adsorption on W(110) using reflectance anisotropy spectroscopy}
author = {Zeybek, O}
abstractNote = {The probe of metal surface electronic structure and results of the oxidation of a BCC material and the first Joint Density of States interpretation of the spectrum from same metal have been presented. The surface sensitivity of RAS has been exploited when applied to a cubic single crystal to study the surface electronic structure of W(110) and the resulting chemisorption-induced changes upon exposure to oxygen. Oxidation of the surface is monitored until a final exposure of 10 Langmuirs is reached. A decrease of reflectance anisotropy signal is obtained with increasing oxygen coverage on the substrate and a coverage of {approx}0.75 ML results in zero anisotropy over the reflectance anisotropy energy range.}
place = {Turkey}
year = {2004}
month = {Jul}
}