Fast coarsening in unstable epitaxy with desorption

A. Pimpinelli; A.J. Bray; C.L. Emmott; F. Tsui; J. Krug; J. Krug; J. Krug; J. Villain; J. Villain; J.A. Stroscio; J.D. Weeks; J.E. Van Nostrand; J.E. Van Nostrand; J.G. Amar; K. Thürmer; K. Thürmer; L. Golubović; L.-H. Tang; M. Rost; M. Rost; M. Rost; M. Siegert; M. Siegert; M.D. Johnson; P. Politi; P. Šmilauer; P. Šmilauer; W.K. Burton

research

Fast coarsening in unstable epitaxy with desorption

Authors: A. Pimpinelli
A.J. Bray
C.L. Emmott
F. Tsui
J. Krug
J. Krug
J. Krug
J. Villain
J. Villain
J.A. Stroscio
J.D. Weeks
J.E. Van Nostrand
J.E. Van Nostrand
J.G. Amar
K. Thürmer
K. Thürmer
L. Golubović
L.-H. Tang
M. Rost
M. Rost
M. Rost
M. Siegert
M. Siegert
M.D. Johnson
P. Politi
P. Šmilauer
P. Šmilauer
W.K. Burton
Publication date: 2 November 1998
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Homoepitaxial growth is unstable towards the formation of pyramidal mounds when interlayer transport is reduced due to activation barriers to hopping at step edges. Simulations of a lattice model and a continuum equation show that a small amount of desorption dramatically speeds up the coarsening of the mound array, leading to coarsening exponents between 1/3 and 1/2. The underlying mechanism is the faster growth of larger mounds due to their lower evaporation rate.Comment: 4 pages, 4 PostScript figure

Similar works

Full text

Available Versions

Crossref

Last time updated on 02/01/2020