The structure of oxygen-adsorbed copper {100} and {110} surfaces has been studied by low energy electron diffraction (LEED) technique. The surface structure data obtained by the present author and other researchers are summarized in a diagram as a function of surface temperature and oxygen pressure. Attention has been given to unify the notations of the surface structures in order to facilitate comparison of the data. The diagram called "oxygen pressure-temperature diagram", is a kind of the phase diagram for the surface, indicating the dependence of surface structure on oxygen pressure and heat treatment
Low-energy electron diffraction (LEED) has been used to investigate some structures formed by elect...
We investigated the room-temperature chemisorption of oxygen on Cu(1 0 0) and Cu(1 1 1) using ambien...
A system for automatically obtaining I/V spectra from a LEED experiment, using a video camera, monit...
The surface characteristics of the oxygen-covered Cu{100} surface have been studied using Low Energy...
The work presented in this thesis includes investigations using low energy electron diffraction (LEE...
LEED fine structure features are due to an interference between the measured beam (usually the specu...
High-index copper surfaces generally show a strong tendency to reconstruct, forming one- or even two...
The adsorption of oxygen at room temperature onto clean (100) and (111) surfaces of copper has been ...
In this work, the problems of what happens to the image potential as a charge approaches a metal sur...
The work in this thesis includes LEED crystallographic studies with low-energy electron diffraction ...
The work in this thesis includes LEED crystallographic studies with low-energy electron diffraction ...
The local adsorption structure of oxygen on Cu(1 0 0) has been studied using O Is scanned-energy mod...
During the cooling process of copper samples heated at 900°C in presence of 10-6 torr oxygen for a c...
Low-energy electron diffraction (LEED) has been used to investigate some structures formed by elect...
We investigated the room-temperature chemisorption of oxygen on Cu(1 0 0) and Cu(1 1 1) using ambien...
Low-energy electron diffraction (LEED) has been used to investigate some structures formed by elect...
We investigated the room-temperature chemisorption of oxygen on Cu(1 0 0) and Cu(1 1 1) using ambien...
A system for automatically obtaining I/V spectra from a LEED experiment, using a video camera, monit...
The surface characteristics of the oxygen-covered Cu{100} surface have been studied using Low Energy...
The work presented in this thesis includes investigations using low energy electron diffraction (LEE...
LEED fine structure features are due to an interference between the measured beam (usually the specu...
High-index copper surfaces generally show a strong tendency to reconstruct, forming one- or even two...
The adsorption of oxygen at room temperature onto clean (100) and (111) surfaces of copper has been ...
In this work, the problems of what happens to the image potential as a charge approaches a metal sur...
The work in this thesis includes LEED crystallographic studies with low-energy electron diffraction ...
The work in this thesis includes LEED crystallographic studies with low-energy electron diffraction ...
The local adsorption structure of oxygen on Cu(1 0 0) has been studied using O Is scanned-energy mod...
During the cooling process of copper samples heated at 900°C in presence of 10-6 torr oxygen for a c...
Low-energy electron diffraction (LEED) has been used to investigate some structures formed by elect...
We investigated the room-temperature chemisorption of oxygen on Cu(1 0 0) and Cu(1 1 1) using ambien...
Low-energy electron diffraction (LEED) has been used to investigate some structures formed by elect...
We investigated the room-temperature chemisorption of oxygen on Cu(1 0 0) and Cu(1 1 1) using ambien...
A system for automatically obtaining I/V spectra from a LEED experiment, using a video camera, monit...
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