Pattern formation in a surface chemical reaction with global delayed feedback
Abstract
We consider effects of global delayed feedback on anharmonic oscillations in the reaction-diffusion model of the CO oxidation reaction on a Pt(110) single-crystal surface. Depending on the feedback intensity and the delay time, we find that various spatiotemporal patterns can be induced. These patterns are characterized using a transformation to phase and amplitude variables designed for anharmonic oscillations. Typical feedback-induced patterns represent traveling phase flips, asynchronous oscillations, and dynamical clustering. Three different types of cluster patterns are identified: amplitude clusters, phase clusters, and cluster turbulence. For phase clusters, two different front instabilities are possible. A pitchfork bifurcation leads to propagation of cluster fronts. An instability of the state of phase balance results in spatial front oscillations.
- Publication:
-
Physical Review E
- Pub Date:
- June 2001
- DOI:
- 10.1103/PhysRevE.63.066102
- Bibcode:
- 2001PhRvE..63f6102B
- Keywords:
-
- 82.40.Np;
- 82.40.Bj;
- 05.45.Xt;
- Temporal and spatial patterns in surface reactions;
- Oscillations chaos and bifurcations;
- Synchronization;
- coupled oscillators