The spatio-temporal behavior during periodic current oscillations in the Fe
/ H2SO4 system is studied for a one-dimensional electrode surface. It is f
ound that during the oscillatory response the electrode surface is never in
the same state at the same time but the surface potential forms an acceler
ating front. The mode of communication between the individual regions of th
e reacting surface is explored by dividing the system into two identical co
upled oscillators. The response is studied by either dividing the electrode
surface with an insulating film of infinitesimal thickness or by a physica
l partition. The behavior of the coupled oscillators can be simple in-phase
synchronization, kin phase locking, out-of-phase locking or complex, depen
ding on the length of the insulating film or the use of the partition and t
he applied potential. The results are compared with a model considering a s
imple coupling through the electrode potentials of the single oscillators.
It is proposed that the coupling patterns can be attributed to the electric
al coupling and the distribution of the frequency of the individual oscilla
tors. (C) 2000 Elsevier Science B.V. All rights reserved.