Other
Scientific paper
Dec 1993
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1993natur.366..322s&link_type=abstract
Nature, Volume 366, Issue 6453, pp. 322-324 (1993).
Other
143
Scientific paper
EXCITABLE media exhibit a wide variety of geometrically complex spatio-temporal patterns, perhaps the most striking of which are rotating spiral waves. Spiral waves have now been observed in many excitable systems, including heart muscle1, aggregating slime-mould cells2, retinae3, CO oxidation on platinum4 and oscillatory chemical systems such as the Belousov-Zhabotinsky (BZ) reaction5,6. In the last case, the spiral cores trace out circular or hypocycloidal trajectories, depending on the specific reaction conditions7-9. In addition, if the excitability of the BZ reaction is light-sensitive10-13, constant illumination has been shown to influence the dynamics of spiral waves14,15. Here we investigate the effect of illumination that is periodically modulated in time. We find that, for a single set of reaction conditions, the motion of the spiral cores can be forced to describe a wide range of open and closed hypocycloidal trajectories, in phase with the applied modulation frequency. Numerical simulations using a modified version of the Oregonator model16,17 of the BZ reaction reproduce this behaviour. We suggest that the modulation of excitability with weak external forces might be used as a means for controlling the dynamics of other excitable media.
Müller Stefan C.
Steinbock Oliver
Zykov Vladimir
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