Tandem droplet locomotion in a uniform electric field

TL;DR

This paper investigates how pairs of droplets with different properties move in a uniform electric field, revealing complex behaviors including stable tandem formations and various migration patterns due to nonreciprocal interactions.

Contribution

The study introduces a combined asymptotic and numerical analysis of droplet pair dynamics with property differences, uncovering new stable tandem configurations and detailed interaction scenarios.

Findings

Droplets can form stable tandem pairs that translate in the electric field.

The dynamics depend on initial orientation and property differences.

Various migration behaviors including contact and separation are identified.

Abstract

An isolated charge-neutral droplet in a uniform electric field experiences no net force. However, a droplet pair can move in response to field-induced dipolar and hydrodynamic interactions. If the droplets are identical, the center of mass of the pair remains fixed. Here, we show that if the droplets have different properties, the pair experiences a net motion due to nonreciprocal interactions. We analyze the three-dimensional droplet trajectories using asymptotic theory, assuming spherical droplets and large separations, and numerical simulations based on a boundary integral method. The dynamics can be quite intricate depending on the initial orientation of the droplets line-of-centers relative to the applied field direction. Drops tend to migrate towards a configuration with line-of-centers either parallel or perpendicular to the applied field direction, while either coming into contact or indefinitely separating. We elucidate the conditions under which these different interaction scenarios take place. Intriguingly, we find that in some cases droplets can form a stable pair (tandem) that translates either parallel or perpendicular to the applied field direction.