Add to ORKGWe present a theory for the transition from nonaxisymmetric to axisymmetric convection in iodate-arsenous acid reaction fronts propagating in a vertical slab. The transition takes place away from the onset of convection, where a convectionless flat front becomes unstable to a nonaxisymmetric convective front. The transition is studied by numerically solving a reaction-diffusion equation coupled with nonlinear hydrodynamics in a two-dimensional slab
The linear stability of exothermic autocatalytic reaction fronts that convert unreacted fluid into a...
The coupling of molecular diffusion and chemical autocatalysis leads to propagating chemical fronts....
Chemical waves induce density gradients in fluids which may lead to convection. This paper studies ...
We investigate the onset of convection for chemical-wave propagation in the Belousov-Zhabotinsky re...
The nonlinear stability of three-dimensional reaction-diffusion fronts in vertical cylinders is con...
We present a theory for the transition to convection for flat chemical wave fronts propagating upwa...
Autocatalytic reaction fronts generate density gradients that may lead to convection. Fronts propaga...
The linear stability of exothermic autocatalytic reaction fronts that convert unreacted fluid into ...
Observations of steady nonaxisymmetric chemical wave fronts are reported for upward propagation in ...
Chemical fronts propagating in vertical cylinders exhibit flat, nonaxisymmetric, and axisymmetric fr...
Linear hydrodynamics yields the onset of convection for ascending autocatalytic reaction fronts in ...
Linear hydrodynamics yields the onset of convection for ascending autocatalytic reaction fronts in ...
By coupling the standard reaction-diffusion equations with the hydrodynamic equations, we study the ...
Poiseuille flow between parallel plates advects chemical reaction fronts, distorting them and alter...
A linear convective stability analysis for propagating autocatalytic reaction fronts includes densi...
The linear stability of exothermic autocatalytic reaction fronts that convert unreacted fluid into a...
The coupling of molecular diffusion and chemical autocatalysis leads to propagating chemical fronts....
Chemical waves induce density gradients in fluids which may lead to convection. This paper studies ...
We investigate the onset of convection for chemical-wave propagation in the Belousov-Zhabotinsky re...
The nonlinear stability of three-dimensional reaction-diffusion fronts in vertical cylinders is con...
We present a theory for the transition to convection for flat chemical wave fronts propagating upwa...
Autocatalytic reaction fronts generate density gradients that may lead to convection. Fronts propaga...
The linear stability of exothermic autocatalytic reaction fronts that convert unreacted fluid into ...
Observations of steady nonaxisymmetric chemical wave fronts are reported for upward propagation in ...
Chemical fronts propagating in vertical cylinders exhibit flat, nonaxisymmetric, and axisymmetric fr...
Linear hydrodynamics yields the onset of convection for ascending autocatalytic reaction fronts in ...
Linear hydrodynamics yields the onset of convection for ascending autocatalytic reaction fronts in ...
By coupling the standard reaction-diffusion equations with the hydrodynamic equations, we study the ...
Poiseuille flow between parallel plates advects chemical reaction fronts, distorting them and alter...
A linear convective stability analysis for propagating autocatalytic reaction fronts includes densi...
The linear stability of exothermic autocatalytic reaction fronts that convert unreacted fluid into a...
The coupling of molecular diffusion and chemical autocatalysis leads to propagating chemical fronts....
Chemical waves induce density gradients in fluids which may lead to convection. This paper studies ...