Influence of Energy and Temperature in Cluster Coalescence Induced by DepositionReport as inadecuate




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Advances in Condensed Matter PhysicsVolume 2012 2012, Article ID 812463, 7 pages

Research Article

Departamento de Física y Química Aplicadas a la Técnica Aeronáutica, EIAE, Universidad Politécnica de Madrid UPM, 28040 Madrid, Spain

Departamento de Física Aplicada III Electricidad y Electrónica, Facultad de Ciencias Físicas, Universidad Complutense de Madrid UCM, 28040 Madrid, Spain

Received 8 November 2012; Accepted 27 November 2012

Academic Editor: Dilip Kanhere

Copyright © 2012 J. C. Jiménez-Sáez et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract

Coalescence induced by deposition of different Cu clusters on an epitaxial Co cluster supported on a Cu001 substrate is studied by constant-temperature molecular dynamics simulations. The degree of epitaxy of the final system increases with increasing separation between the centres of mass of the projectile and target clusters during the collision. Structure, roughness, and epitaxial order of the supported cluster also influence the degree of epitaxy. The effect of energy and temperature is determinant on the epitaxial condition of the coalesced cluster, especially both factors modify the generation, growth and interaction among grains. A higher temperature favours the epitaxial growth for low impact parameters. A higher energy contributes to the epitaxial coalescence for any initial separation between the projectile and target clusters. The influence of projectile energy is notably greater than the influence of temperature since higher energies allow greater and instantaneous atomic reorganizations, so that the number of arisen grains just after the collision becomes smaller. The appearance of grain boundary dislocations is, therefore, a decisive factor in the epitaxial growth of the coalesced cluster.





Author: J. C. Jiménez-Sáez, A. M. C. Pérez-Martín, and J. J. Jiménez-Rodríguez

Source: https://www.hindawi.com/



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