Paper detail

Capillary action in scalar active matter

We study the capacity of active matter to rise in thin tubes against gravity and other related phenomena, like, wetting of vertical plates and spontaneous imbibition, where a wetting liquid is drawn into a porous medium. This capillary action or capillarity is well known in classical fluids and originates from attractive interactions between the liquid molecules and the container walls, and from the attraction of the liquid molecules among each other. We observe capillarity in a minimal model for scalar active matter with purely repulsive interactions, where an effective attraction emerges due to slowdown during collisions between active particles and between active particles and walls. Simulations indicate that the capillary rise in thin tubes is approximately proportional to the active sedimentation length $λ$ and that the wetting height of a vertical plate grows superlinear with $λ$. In a disordered porous medium the imbibition height scales as $\langle h\rangle\proptoλϕ_m$, where $ϕ_m$ is its packing fraction.