Add to ORKGA plot of the bifurcation diagram for a two-component reaction-diffusion equation with no-flux boundary conditions reveals an intricate web of competing stable and unstable states. By studying the one-dimensional Sel'kov model, we show how a mixture of local, global and numerical analysis can make sense of several aspects of this complex picture. The local bifurcation analysis, via the power of singularity theory, gives us a framework to work in. We can then fill in the details with numerical calculations, with the global analytic results fixing the outline of the solution set. Throughout, we discuss to what extent our results can be applied to other models
AbstractA two-species Lotka–Volterra competition–diffusion model with spatially inhomogeneous reacti...
This paper deals with the classification of transition phenomena in the most basic dissipative syste...
A two-species Lotka-Volterra competition-diffusion model with spatially inhomogeneous reaction tenns...
In this paper we discuss steady-state solutions of the system of reaction-diffusion equations known ...
In this paper we discuss steady-state solutions of the system of reaction-diffusion equations known ...
In this paper we discuss steady-state solutions of the system of reaction-diffusion equations known ...
The steady state spatial patterns arising in nonlinear reaction-diffusion systems beyond an instabil...
In this work we write down in some detail the bifurcation theory of stationary states of reaction-di...
Stationary, spatially inhomogenous solutions of reaction-diffusion systems are studied in this thesi...
Stationary, spatially inhomogenous solutions of reaction-diffusion systems are studied in this thesi...
Stationary, spatially inhomogenous solutions of reaction-diffusion systems are studied in this thesi...
The stability properties of the first two time-periodic solutions bifurcating from an unstable unifo...
The existence of symmetric nonuniform solutions in nonlinear reaction-diffusion systems is examined....
The focus of this thesis is to study long term solutions for classes of steady state reaction diffus...
The problem of two-phase stirred tank reactors is considered from the standpoint of global steady st...
AbstractA two-species Lotka–Volterra competition–diffusion model with spatially inhomogeneous reacti...
This paper deals with the classification of transition phenomena in the most basic dissipative syste...
A two-species Lotka-Volterra competition-diffusion model with spatially inhomogeneous reaction tenns...
In this paper we discuss steady-state solutions of the system of reaction-diffusion equations known ...
In this paper we discuss steady-state solutions of the system of reaction-diffusion equations known ...
In this paper we discuss steady-state solutions of the system of reaction-diffusion equations known ...
The steady state spatial patterns arising in nonlinear reaction-diffusion systems beyond an instabil...
In this work we write down in some detail the bifurcation theory of stationary states of reaction-di...
Stationary, spatially inhomogenous solutions of reaction-diffusion systems are studied in this thesi...
Stationary, spatially inhomogenous solutions of reaction-diffusion systems are studied in this thesi...
Stationary, spatially inhomogenous solutions of reaction-diffusion systems are studied in this thesi...
The stability properties of the first two time-periodic solutions bifurcating from an unstable unifo...
The existence of symmetric nonuniform solutions in nonlinear reaction-diffusion systems is examined....
The focus of this thesis is to study long term solutions for classes of steady state reaction diffus...
The problem of two-phase stirred tank reactors is considered from the standpoint of global steady st...
AbstractA two-species Lotka–Volterra competition–diffusion model with spatially inhomogeneous reacti...
This paper deals with the classification of transition phenomena in the most basic dissipative syste...
A two-species Lotka-Volterra competition-diffusion model with spatially inhomogeneous reaction tenns...