Early stages of ramified growth in quasi-two-dimensional electrochemical
  deposition

D. A. Kessler; D. Grier; D. P. Barkey; D. P. Barkey; E. Ben-Jacob; G. L. M. K. S. Kahanda; J. L. Barton; J. M. Huth; J. R. de Bruyn; J. S. Newman; J.-N. Chazalviel; John R. de Bruyn; K. Linehan; M. D. Pritzker; M. Rosso; R. Aogaki; R. Aogaki; R. Aogaki; T. C. Halsey; T. Viscek; V. Fleury; V. Fleury; W. H. Press; W. W. Mullins; W. W. Mullins; Y. Sawada

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Early stages of ramified growth in quasi-two-dimensional electrochemical deposition

Authors: D. A. Kessler
D. Grier
D. P. Barkey
D. P. Barkey
E. Ben-Jacob
G. L. M. K. S. Kahanda
J. L. Barton
J. M. Huth
J. R. de Bruyn
J. S. Newman
J.-N. Chazalviel
John R. de Bruyn
K. Linehan
M. D. Pritzker
M. Rosso
R. Aogaki
R. Aogaki
R. Aogaki
T. C. Halsey
T. Viscek
V. Fleury
V. Fleury
W. H. Press
W. W. Mullins
W. W. Mullins
Y. Sawada
Publication date: 22 December 1995
Publisher: 'American Physical Society (APS)'
Doi

Abstract

I have measured the early stages of the growth of branched metal aggregates formed by electrochemical deposition in very thin layers. The growth rate of spatial Fourier modes is described qualitatively by the results of a linear stability analysis [D.P. Barkey, R.H. Muller, and C.W. Tobias, J. Electrochem. Soc. {\bf 136}, 2207 (1989)]. The maximum growth rate is proportional to

(I/c)^\delta

where

I

is the current through the electrochemical cell,

c

the electrolyte concentration, and

\delta = 1.37 \pm 0.08

. Differences between my results and the theoretical predictions suggest that electroconvection in the electrolyte has a large influence on the instability leading to ramified growth.Comment: REVTeX, four ps figure

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