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Determination of the Ion Sputtering-induced In-depth Distribution by Means of Elastic Peak Electron Spectroscopy

✍ Scribed by Konkol, A.; Menyhard, M.

Publisher
John Wiley and Sons
Year
1997
Tongue
English
Weight
243 KB
Volume
25
Category
Article
ISSN
0142-2421

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✦ Synopsis

Elastic peak depth proÐling was carried out on an Mo/Si multilayer system using a rotating specimen, grazing angle of incidence (86Ä with respect to the surface normal) and 0.5 keV Ar ion energy. The depth proÐling was simulated by dynamic TRIM (T-DYN) code. The T-DYN code provided the in-depth distribution of the elements in any moment of the depth proÐling process. Direct Monte Carlo calculation was developed to calculate the intensity of the elastic peak emitted from the distribution determined by the T-DYN code. Good agreement was found between the calculated and measured elastic peak depth proÐles, proving that the Monte Carlo routine developed is readily applicable to inhomogeneous layers and the mixing of the Mo/Si layer is well described by the T-DYN code.

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