Add to ORKGA variety of pattern formation phenomena in catalytic surface reactions can be attributed to the dynamics of interfaces, or fronts, separating distinct uniform states. The states may represent surface coverages by different adsorbates or in the case of forced oscillations, different phases of oscillation. The dynamics of fronts are strongly affected by front instabilities and by diffusion anisotropy. We identify two new pattern formation mechanisms associated with different front behaviors in orthogonal directions: an ordering process by which stationary labyrinths in an isotropic system evolve into ordered stationary stripes, and confinement of isotropic spatiotemporal chaos to one space dimension, a state we term stratified chaos
Surface reactions exhibit unique features as model systems for nonlinear effects in chemical reactio...
A simple model of a surface chemical reaction with a promoter interacting with one of the reactants ...
Texto completo. Acesso restrito. p. 434–445We investigate the influence of the order of surface phas...
A variety of pattern formation phenomena in catalytic surface reactions can be attributed to the dyn...
A variety of pattern formation phenomena in catalytic surface reactions can be at-tributed to the dy...
Numerical simulations of two dimensional pattern formation in an anisotropic bistable reaction-diffu...
We review experimental and theoretical work addressing pattern formation on anisotropic and heteroge...
Two front instabilities in a reaction-diffusion system are shown to lead to the formation of complex...
Nonlinear dynamics in heterogeneous catalysis has been studied extensively over the past decades (se...
The recent development of novel experimental methods and progress in theoretical modelling within th...
Chemical reactions far from equilibrium on solid surfaces may exhibit typical phenomena of nonlinear...
Resonantly forced oscillatory reaction-diffusion systems can exhibit fronts with complicated interfa...
This is a study of fronts and patterns formed in reaction-diffusion systems. A doubly-diffusive vers...
The elementary steps underlying the mechanism of a catalytic reaction are also responsible for its r...
Pattern interaction has so far been restricted to systems with relatively complex reaction schemes, ...
Surface reactions exhibit unique features as model systems for nonlinear effects in chemical reactio...
A simple model of a surface chemical reaction with a promoter interacting with one of the reactants ...
Texto completo. Acesso restrito. p. 434–445We investigate the influence of the order of surface phas...
A variety of pattern formation phenomena in catalytic surface reactions can be attributed to the dyn...
A variety of pattern formation phenomena in catalytic surface reactions can be at-tributed to the dy...
Numerical simulations of two dimensional pattern formation in an anisotropic bistable reaction-diffu...
We review experimental and theoretical work addressing pattern formation on anisotropic and heteroge...
Two front instabilities in a reaction-diffusion system are shown to lead to the formation of complex...
Nonlinear dynamics in heterogeneous catalysis has been studied extensively over the past decades (se...
The recent development of novel experimental methods and progress in theoretical modelling within th...
Chemical reactions far from equilibrium on solid surfaces may exhibit typical phenomena of nonlinear...
Resonantly forced oscillatory reaction-diffusion systems can exhibit fronts with complicated interfa...
This is a study of fronts and patterns formed in reaction-diffusion systems. A doubly-diffusive vers...
The elementary steps underlying the mechanism of a catalytic reaction are also responsible for its r...
Pattern interaction has so far been restricted to systems with relatively complex reaction schemes, ...
Surface reactions exhibit unique features as model systems for nonlinear effects in chemical reactio...
A simple model of a surface chemical reaction with a promoter interacting with one of the reactants ...
Texto completo. Acesso restrito. p. 434–445We investigate the influence of the order of surface phas...