Thomas Wanner
Department of Mathematical Sciences
George Mason University
4400 University Drive, MS 3F2
Fairfax, Virginia 22030, USA

 

Cyclic symmetry induced pitchfork bifurcations in the diblock copolymer model

imgpub/076_bifdiagaltogether.jpg imgpub/076_dbcp1d_sol_073.jpg imgpub/076_symbifsketch.jpg

  1. Peter Rizzi, Evelyn Sander, Thomas Wanner:
    Cyclic symmetry induced pitchfork bifurcations in the diblock copolymer model
    Discrete and Continuous Dynamical Systems, Series B 29(2), pp. 666-701, 2024.

Abstract

The Ohta-Kawasaki model for diblock copolymers exhibits a rich equilibrium bifurcation structure. Even on one-dimensional base domains the bifurcation set is characterized by high levels of multi-stability and numerous secondary bifurcation points. Many of these bifurcations are of pitchfork type. In previous work, the authors showed that if pitchfork bifurcations are induced by a simple $\mathbb{Z}_2$ symmetry-breaking, then computer-assisted proof techniques can be used to rigorously validate them using extended systems. However, many diblock copolymer pitchfork bifurcations cannot be treated in this way. In the present paper, we show that in these more involved cases, a cyclic group action is responsible for their existence, based on cyclic groups of even order. We present theoretical results establishing such bifurcation points and show that they can be characterized as nondegenerate solutions of a suitable extended nonlinear system. Using the latter characterization, we also demonstrate that computer-assisted proof techniques can be used to validate such bifurcations. While the methods proposed in this paper are only applied to the diblock copolymer model, we expect that they will also apply to other parabolic partial differential equations.

The preprint version of the paper can be downloaded from https://arxiv.org/abs/2212.08492, while the published version of the paper can be found at https://doi.org/10.3934/dcdsb.2023109.

Bibtex

@article{rizzi:sander:wanner:24a,
   author = {Peter Rizzi and Evelyn Sander and Thomas Wanner},
   title = {Cyclic symmetry induced pitchfork bifurcations in the diblock copolymer model},
   journal = {Discrete and Continuous Dynamical Systems, Series B},
   year = 2024,
   volume = {29},
   number = {2},
   pages = {666--701},
   doi = {10.3934/dcdsb.2023109}
   }