Theory of thermal desorption of light noble gases from metals: application to Ne-Cu(111)

Theory of thermal desorption of light noble gases from metals: application to Ne-Cu(111)

A quantum theory of thermal desorption of light noble gases, at low temperatures, in the framework of the distorted-wave Bom approximation, is presented. Such a theory has been applied to the calculation of the angle-resolved thermal desorption flux, and time-of-flight spectrum for Ne-Cu(111) using...

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Veröffentlicht in:Surface science 1991-04, Vol.245 (1), p.17-28
Hauptverfasser: Brivio, G.P., Grimley, T.B., Bortolani, V., Santoro, G.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Condensed matter: structure, mechanical and thermal properties
Exact sciences and technology
Metals. Metallurgy
Physics
Solid surfaces and solid-solid interfaces
Surface structure and topography
Surfaces and interfaces
thin films and whiskers (structure and nonelectronic properties)
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Zusammenfassung:A quantum theory of thermal desorption of light noble gases, at low temperatures, in the framework of the distorted-wave Bom approximation, is presented. Such a theory has been applied to the calculation of the angle-resolved thermal desorption flux, and time-of-flight spectrum for Ne-Cu(111) using a microscopic description of the phonons of Cu(111), and a realistic gas-solid potential. We show that desorption is driven by long-wavelength phonons, but the precise angular dependence results from the temperature-dependent interplay of statistical and dynamical factors. The angular distribution is narrower than cosine at 4 K, broader than cosine at 12 K, and distinctly non-cosine for temperatures greater than 20 K with the maximum away from the surface normal. He desorbing from graphite shows similar features.
ISSN:0039-6028
1879-2758
DOI:10.1016/0039-6028(91)90464-4