Quantum Mechanical Basis for the Cubes Models in Gas–Surface Scattering Theory, and an Experimental Test

15 September 1970

journal article
research article
Published by AIP Publishing in The Journal of Chemical Physics

Vol. 53 (6), 2281-2283
https://doi.org/10.1063/1.1674324

Abstract

It is suggested that there is a quantum mechanical basis for the classical flat surface (cubes) models of gas–surface scattering, the important characteristic of which is the assumption of conservation of tangential momentum of a scattering gas molecule. The theory is applied to the diffractive system He–LiF, and it is shown that existing experimental data confirm some predictions of the theory.

Keywords

This publication has 7 references indexed in Scilit:

Scattering of atoms by solid surfaces
Surface Science, 1970
Scattering of atoms by solid surfaces. I
Surface Science, 1970
Theory of Surface Scattering and Detection of Surface Phonons
Physical Review Letters, 1969
Classical Theory for the Interaction of Gas Atoms with Solid Surfaces
The Journal of Chemical Physics, 1968
Quantum Mechanics in Gas Crystal-Surface Van Der Waals Scattering
Published by Elsevier ,1968
Atomic and Molecular Scattering from Solid Surfaces
Published by Elsevier ,1968
Simple Classical Model for the Scattering of Gas Atoms from a Solid Surface
The Journal of Chemical Physics, 1966

Cited by 20 articles