Development and ordering of mounds during metal(100) homoepitaxy | Zendy

Kyle Caspersen | Zendy; A. R. Layson | Zendy; Conrad R. Stoldt | Zendy; V. Fournée | Zendy; P. A. Thiel | Zendy; J. W. Evans | Zendy

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Development and ordering of mounds during metal(100) homoepitaxy

Author(s) -

Kyle Caspersen,

A. R. Layson,

Conrad R. Stoldt,

V. Fournée,

P. A. Thiel,

J. W. Evans

Publication year - 2002

Publication title -

physical review. b, condensed matter

Language(s) - English

Resource type - Journals

eISSN - 1095-3795

pISSN - 0163-1829

DOI - 10.1103/physrevb.65.193407

Subject(s) - coalescence (physics) , scanning tunneling microscope , metal , condensed matter physics , growth model , materials science , chemical physics , statistical physics , physics , mathematics , metallurgy , astrobiology , mathematical economics

International audienceScanning-tunneling microscopy studies combined with atomistic modeling for Ag/Ag100 homoepitaxy reveal complex growth behavior at 300 K: initial smooth growth up to 25 ML, where three-dimensional 3D mounds develop from 2D islands; then an extended regime of mound steepening for 1000 ML producing unexpected rough growth; and finally an asymptotic regime with cooperative mound ordering and coalescence dynamics quite distinct from that in systems with up-down symmetry. The steepening regime is compressed upon lowering temperature, so while initial growth is rougher, asymptotic growth is actually smoother

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