Two-Cell coupled cubic autocatalator: the effect of the uncatalysed reaction
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Publication:3137814
DOI10.1080/02681119208806142zbMath0782.92023OpenAlexW2037674655MaRDI QIDQ3137814
Stephen K. Scott, J. A. Leach, John H. Merkin
Publication date: 13 October 1993
Published in: Dynamics and Stability of Systems (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1080/02681119208806142
asymptotic solutionsHopf bifurcationsmultiple stationary statescubic autocatalytic reactionextra uncatalysed steptwo-cell problem
Classical flows, reactions, etc. in chemistry (92E20) Chemical kinetics in thermodynamics and heat transfer (80A30)
Related Items (5)
Bifurcation analysis of a discrete-time four-dimensional cubic autocatalator chemical reaction model with coupling through uncatalysed reactant ⋮ A cubic autocatalator chemical reaction model with limit cycle analysis and consistency preserving discretization ⋮ Two-cell coupled nonlinear chemical oscillator: asymmetric cells ⋮ Stationary patterns in a two-cell coupled isothermal chemical system with arbitrary powers of autocatalysis ⋮ Symmetry breaking, bifurcations, quasiperiodicity, and chaos due to electric fields in a coupled cell model
Cites Work
- Control of mitosis by a continuous biochemical oscillation: synchronization; spatially inhomogeneous oscillations
- On the Creation, Growth and Extinction of Oscillatory Solutions for a Simple Pooled Chemical Reaction Scheme
- Analysis of chemical kinetic systems over the entire parameter space - I. The Sal’nikov thermokinetic oscillator
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- Oscillations of simple exothermic reactions in a closed system. II. Exact Arrhenius kinetics
- On the structural stability of the cubic autocatalytic scheme in a closed vessel
- An analysis of a two-cell coupled nonlinear chemical oscillator
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