Inferring activity from the flow field around active colloidal particles using deep learning
Soft Condensed Matter
2025-08-28 v3 Fluid Dynamics
Abstract
Active colloidal particles create flow around them due to non-equilibrium process on their surfaces. In this paper, we infer the activity of such colloidal particles from the flow field created by them via deep learning. We first explain our method for one active particle, inferring the mode (or the stresslet) and the mode (or the source dipole) from the flow field data, along with the position and orientation of the particle. We then apply the method to a system of many active particles. We find excellent agreements between the predictions and the true values of activity. Our method presents a principled way to predict arbitrary activity from the flow field created by active particles.
Keywords
Cite
@article{arxiv.2505.10270,
title = {Inferring activity from the flow field around active colloidal particles using deep learning},
author = {Aditya Mohapatra and Aditya Kumar and Mayurakshi Deb and Siddharth Dhomkar and Rajesh Singh},
journal= {arXiv preprint arXiv:2505.10270},
year = {2025}
}
Comments
12 Pages, 8 Figures, and 1 Algorithm