Pattern Formation in the Bromate–Sulfite–Ferrocyanide
Reaction
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Abstract
Mixed Landolt-type pH oscillators
are versatile systems that allow
the experimental study of a wide range of nonlinear phenomena including
multistability, oscillations, and spatiotemporal patterns. We report
on the dynamics of the bromate–sulfite–ferrocyanide
reaction operated in a open one-side-fed reactor, where spatial bistability,
spatiotemporal oscillations, front and Turing-type patterns have been
observed. The role of different experimental parameters, like the
input flow concentrations of the hydrogen and the ferrocyanide ions,
the temperature and the thickness of the gel medium (which affects
the rate of the diffusive feed) have been investigated. We point out
that all these parameters can be efficiently used to control the spatiotemporal
dynamics. We show that the increase of ionic strength stabilizes the
uniform states at the expense of the patterned one. Some general aspects
of the spatiotemporal dynamics of mixed Landolt type systems, which
are based on the oxidation of sulfite ions by strong oxidants, are
emphasized