Classical theory of atom-surface scattering: The rainbow effect
- 作者:Salvador Miret-Arté ; sa ; s.miret@iff.csic.es ; Eli Pollakb ; Eli.Pollak@weizmann.ac.il
- 关键词:Surface rainbow scattering ; Super-rainbows ; Energy loss rainbows ; Friction induced rainbows ; Sticking ; Adsorption ; Stochastic scattering
- 刊名:Surface Science Reports
- 出版年:2012
- 期刊代码:108_01675729
- 类别:ms
- 出版时间:1 July, 2012
- 卷:67
- 期:7-8
- 页码:161-200
- 文件大小:2056 K
摘要
The scattering of heavy atoms and molecules from surfaces is oftentimes dominated by classical mechanics. A large body of experiments have gathered data on the angular distributions of the scattered species, their energy loss distribution, sticking probability, dependence on surface temperature and more. For many years these phenomena have been considered theoretically in the framework of the 鈥渨ashboard model鈥?in which the interaction of the incident particle with the surface is described in terms of hard wall potentials. Although this class of models has helped in elucidating some of the features it left open many questions such as: true potentials are clearly not hard wall potentials, it does not provide a realistic framework for phonon scattering, and it cannot explain the incident angle and incident energy dependence of rainbow scattering, nor can it provide a consistent theory for sticking. In recent years we have been developing a classical perturbation theory approach which has provided new insight into the dynamics of atom-surface scattering. The theory includes both surface corrugation as well as interaction with surface phonons in terms of harmonic baths which are linearly coupled to the system coordinates. This model has been successful in elucidating many new features of rainbow scattering in terms of frictions and bath fluctuations or noise. It has also given new insight into the origins of asymmetry in atomic scattering from surfaces. New phenomena deduced from the theory include friction induced rainbows, energy loss rainbows, a theory of super-rainbows, and more. In this review we present the classical theory of atom-surface scattering as well as extensions and implications for semiclassical scattering and the further development of a quantum theory of surface scattering. Special emphasis is given to the inversion of scattering data into information on the particle-surface interactions.