Initial perturbations dependence of non-equilibrium continuous and discontinuous pattern transition

TL;DR

This paper investigates how initial perturbations influence pattern transitions in phase separation, revealing that transition types depend on initial slit width and providing insights into nonequilibrium phenomena.

Contribution

It demonstrates the dependence of pattern transition order on initial perturbation size in phase separation, advancing understanding of nonequilibrium pattern formation.

Findings

Transition type depends on initial slit width.

Second-order-like transition occurs near steady-state width.

First-order-like transition occurs with larger initial widths.

Abstract

A phase separation in a spatially heterogeneous environment is closely related to intracellular science and material science. For the phase separation, initial heterogeneous perturbations play an important role in pattern formations. In this study, a pattern transition from a lamellar pattern to a columnar pattern is investigated in the presence of a slit pattern as the initial perturbations. Here it is found that the transition behavior depends on the initial slit width. When the initial slit width is close to the width of the columnar pattern at the steady state, the pattern transition is the second-order-like (continuous) transition. Meanwhile, the pattern transition becomes the first-order-like (discontinuous) transition if the width of the initial slit is much larger than that at the steady state. Then those transition behaviors can be explained by the dynamical path during the pattern formation. This finding will advance understanding of the initial perturbation dependence of nonequilibrium phenomena.