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Prediction of structure-dependent charge transfer rates for a Li atom outside a Si(0 0 1) surface |
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| Authors: | Keith Niedfeldt Emily A. Carter |
| Affiliation: | a Department of Mechanical and Aerospace Engineering and Program in Applied and Computational Mathematics, Princeton University, Princeton, NJ 08544-5263, United States b Department of Physics and Astronomy, M.S. 61, Rice University, P.O. Box 1892, 6100 South Main Street, Houston, TX 77251-1892, United States |
| Abstract: | We investigate the broadening of the 2s energy level of a Li atom outside a Si(0 0 1) surface using a first principles approach. The covalent nature of the Si surface produces large variations in Li energy level widths as a function of lateral position across the surface. The widths above symmetric Si dimers are predicted to be much larger than above buckled Si dimers, suggesting that charge transfer will occur primarily above symmetric dimers. We discuss the ramifications of our results on the controversy surrounding the relative abundance of the buckled vs. symmetric dimers on the Si surface. |
| Keywords: | Atom-solid interactions, scattering, diffraction Density functional calculations Ion-solid interactions, scattering, channeling Silicon Low index single crystal surfaces |
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