Bicontinuity in active phase separation
Abstract
We study phase separation between coexisting active and passive fluids in three-dimensions, using numerical simulation and experiments. Chaotic flows of the active phase drive giant interfacial deformations, causing the co-existing phases to interpenetrate and generate a continuously reconfiguring bicontinuous morphology which persists over the lifetime of the active fluid. Active bicontinuous structures are dominated by sheet-like interfaces, in marked difference from passive liquid-liquid phase separation which is controlled by saddle-like surfaces. Activity and surface tension control the length scale of the bicontinuous structure. These results demonstrate how active stresses suppress the coarsening of conventional phase separation, generating steady-state reconfigurable morphologies not accessible with conventional surface-modifying agents or through quenching of transient phase separated structures.
Cite
@article{arxiv.2601.03221,
title = {Bicontinuity in active phase separation},
author = {Paarth Gulati and Liang Zhao and Michio Tateno and Omar A. Saleh and Zvonimir Dogic and M. Cristina Marchetti},
journal= {arXiv preprint arXiv:2601.03221},
year = {2026}
}
Comments
19 pages, 11 figures