Showing papers by "David Goodstein published in 1993"
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03 May 1993-Nuclear Instruments & Methods in Physics Research Section B-beam Interactions With Materials and Atoms
TL;DR: In this paper, the authors measured the branching ratios to different final states of the scattered particles for 400 eV Li + ions incident on alkali-covered Cu(001) and compared the results of a resonant charge transfer theory which includes excited states, negative ions, and level crossings.
Abstract: We present measurements of branching ratios to different final states of the scattered particles for 400 eV Li + ions incident on alkali-covered Cu(001). In particular, we have measured the charge state fractions and the relative yield of excited states in the scattered flux as a function of the adsorbate-induced work function shift. The results of a resonant charge transfer theory which includes excited states, negative ions, and level crossings are compared to the measurements. Qualitative agreement is achieved with the observed work function dependence of both the charge state fractions and the relative yield of Li(2p). In particular, the theory predicts that the peak observed in the Li(2p) yield is due to a competition between the Li(2p) state and the Li − (2s 2 ) state.
10 citations
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TL;DR: With increasing temperature, the clean surface exhibits a rapid decrease in step-step correlations primarily along the [001] direction, and for an impurity concentration of order ≤0.001 monolayer, the pinning of steps results in a phase separation into flat (110) terraces and densely stepped regions.
Abstract: We present x-ray scattering and scanning-tunneling-microscopy studies of Ag(110) vicinally miscut along the [110] direction. For a clean surface miscut by 1 o we find no evidence for phase separation. However, for an impurity concentration of order ≤0.001 monolayer we find that the pinning of steps results in a phase separation into flat (110) terraces and densely stepped regions. With increasing temperature, the clean surface exhibits a rapid decrease in step-step correlations primarily along the [001] direction
9 citations