Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5423075 | Surface Science | 2010 | 17 Pages |
Abstract
We present an analytic model applied to quasi-elastic scattering from an adsorbed surface species undergoing jump diffusion between adsorption sites described by a Bravais lattice combined with a basis of multiple points. The model allows for hops between adsorption sites which are both symmetrically and energetically inequivalent. We give results for 1-D hopping, which are applicable to a species jumping between the top and bridge sites along the [11Ì
0] direction on an fcc-(110) surface or for jumps along a step edge. In 2-D, results for hopping between fcc and hcp hollow sites and between the bridge sites of an fcc-(111) surface are presented. These examples give characteristic signatures which will allow these forms of motion to be recognized in experimental data and will enable the underlying physical parameters to be extracted by comparison with the analytical forms derived here.
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Physical Sciences and Engineering
Chemistry
Physical and Theoretical Chemistry
Authors
Fay E. Tuddenham, Holly Hedgeland, Andrew P. Jardine, Barbara A.J. Lechner, B.J. Hinch, William Allison,