abstract

• In this study, it was investigated numerically how boundary conditions influence the formation of Turing-like patterns under various diffusion conditions in complex media. It was found that Dirichlet boundary conditions can induce their symmetry in the patterns once the boundary concentrations of morphogens reach critical thresholds that depend on the diffusion regime and the domain size. We find that anomalous diffusion, characterized in our model by the parameter λ, can expand or contract the Turing instability region. Then, since superdiffusive conditions lead to a larger instability window, we conjecture that a possible explanation for the emergence of self-similarity in our system may be associated with the excitation of different scales. Our findings generally offer insights into reaction–diffusion systems’ pattern orientation and selection mechanisms.

authors

• Aguilar-Madera C.G.
• Herrera Hernández Erik César

publication date

• 2024-01-01

published in

• Physica D: Nonlinear Phenomena  Journal

keywords

• Anomalous diffusion; Boundary conditions; Reaction–diffusion systems; Symmetry induction; Turing patterns Boundary conditions; Anomalous diffusion; Boundary concentrations; Complex medium; Condition; Dirichlet boundary condition; Morphogens; Numerical exploration; Reaction diffusion systems; Symmetry induction; Turing patterns; Diffusion

Digital Object Identifier (DOI)

• 10.1016/j.physd.2024.134353

PubMed ID

start page

end page

volume

• 470

issue