论文信息 - Application of the Ion Bombardment Cleaning Method to Titanium, Germanium, Silicon, and Nickel as Determined by Low‐Energy Electron Diffraction

Application of the Ion Bombardment Cleaning Method to Titanium, Germanium, Silicon, and Nickel as Determined by Low‐Energy Electron Diffraction

The ion‐bombardment cleaning method has been successfully applied to the (100) faces of germanium, silicon, and nickel, and to the (0001) face of titanium. Conditions and precautions necessary for the production of clean surfaces are described. Tests have been made for contamination from the ambient during the cleaning procedure for germanium. It has been shown that contamination approximating one‐half monolayer does not occur under the conditions which were obtained, and that the method is capable of producing surfaces which are atomically clean.Results for clean (100), (111), and (110) germanium faces and the (100) silicon face indicate that the atomic positions in the surface planes are not the same as the corresponding positions in the bulk structure. For (100) nickel and (0001) titanium, the positions of the atoms in the surface planes are in agreement with x‐ray data. In the case of titanium, an unidentified surface structure was present until after several cycles of alternate heating and ion bombar...

[1] R. Gomer. Field Emission from Nickel Surfaces , 1953 .

[2] H. E. Farnsworth. Fine Structure of Electron Diffraction Beams from a Gold Crystal and from a Silver Film on a Gold Crystal , 1933 .

[3] H. E. Farnsworth. Penetration of Low Speed Diffracted Electrons , 1936 .

[4] R. Kingston,et al. Semiconductor surface physics , 1957 .

[5] H. E. Farnsworth. A Simple Contamination‐Free Electron Gun , 1950 .

[6] G. Wehner,et al. Sputtering of Metal Single Crystals by Ion Bombardment , 1955 .

[7] H. E. Farnsworth,et al. Low‐Energy Electron Diffraction Investigation of Chemisorbed Gases on the (100) Faces of Copper and Nickel Single Crystals , 1954 .

[8] R. Burger,et al. Ion Bombardment‐Cleaning of Germanium and Titanium as Determined by Low‐Energy Electron Diffraction , 1955 .

[9] H. Gatos,et al. Thermal Restoration of Oxygenated Germanium Surfaces , 1958 .

[10] H. E. Farnsworth. A Method of Obtaining an Intense Beam of Low-Velocity Electrons , 1927 .

[11] H. E. Farnsworth,et al. Work‐Function Studies of Germanium Crystals Cleaned by Ion Bombardment , 1957 .

[12] H. E. Farnsworth. Concerning W. T. Sproull's Article on "Diffraction of Low Speed Electrons by a Tungsten Single Crystal" , 1933 .