The angle-resolved thermal desorption flux for Ne-Cu(111) has been computed at 5, 10 and 15 K in the Distorted Wave Born Approximation using an accurate microscopic description of the surface lattice dynamics, and a realistic gas-solid potential. The angular distribution narrows as the temperature is lowered, being broader than the equilibrium theory cosine law at 15 and 10 K and narrower than it at 5 K. The Time-of-Flight spectra of the desorbed atoms are also analysed.
Vibrational effects in Desorption of Light Rare Gases from Metals / Brivio, G. P.; Grimley, T. B.; Bortolani, Virginio; Franchini, Anna; Santoro, Giorgio. - In: VACUUM. - ISSN 0042-207X. - STAMPA. - 41:(1990), pp. 202-203. [10.1016/0042-207X(90)90309-M]
Vibrational effects in Desorption of Light Rare Gases from Metals
BORTOLANI, Virginio;FRANCHINI, Anna;SANTORO, Giorgio
1990
Abstract
The angle-resolved thermal desorption flux for Ne-Cu(111) has been computed at 5, 10 and 15 K in the Distorted Wave Born Approximation using an accurate microscopic description of the surface lattice dynamics, and a realistic gas-solid potential. The angular distribution narrows as the temperature is lowered, being broader than the equilibrium theory cosine law at 15 and 10 K and narrower than it at 5 K. The Time-of-Flight spectra of the desorbed atoms are also analysed.Pubblicazioni consigliate
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