The study of pattern formation in reaction-diffusion systems and convection dynamics has opened new avenues for understanding how complex spatial structures arise from relatively simple underlying ...

Stochastic modelling of reaction–diffusion systems has emerged as a crucial framework for understanding the complex interplay between chemical reactions and molecular diffusion in biological settings.

Nature has no shortage of patterns, from spots on leopards to stripes on zebras and hexagons on boxfish. But a full explanation for how these patterns form has remained elusive. Now engineers at CU ...

Biological patterns often develop in a mathematically predictable way. Fifty years ago Alan Turing invoked differential equations describing the interaction of an activator molecule and its inhibitor, ...

A new theory enables the simulation of complex pattern formation in biological systems across different spatial and temporal scales. For many processes important for life such as cell division, cell ...

(Nanowerk News) For many processes important for life such as cell division, cell migration, and the development of organs, the spatially and temporally correct formation of biological patterns is ...