{Reference Type}: Journal Article
{Title}: Biomimetic Synchronization in Biciliated Robots.
{Author}: Xia Y;Hu Z;Wei D;Chen K;Peng Y;Yang M;
{Journal}: Phys Rev Lett
{Volume}: 133
{Issue}: 4
{Year}: 2024 Jul 26
{Factor}: 9.185
{DOI}: 10.1103/PhysRevLett.133.048302
{Abstract}: Direct mechanical coupling is known to be critical for establishing synchronization among cilia. However, the actual role of the connections is still elusive-partly because controlled experiments in living samples are challenging. Here, we employ an artificial ciliary system to address this issue. Two cilia are formed by chains of self-propelling robots and anchored to a shared base so that they are purely mechanically coupled. The system mimics biological ciliary beating but allows fine control over the beating dynamics. With different schemes of mechanical coupling, artificial cilia exhibit rich motility patterns. Particularly, their synchronous beating display two distinct modes-analogous to those observed in C. reinhardtii, the biciliated model organism for studying synchronization. Close examination suggests that the system evolves towards the most dissipative mode. Using this guideline in both simulations and experiments, we are able to direct the system into a desired state by altering the modes' respective dissipation. Our results have significant implications in understanding the synchronization of cilia.