Unveiling the transport mechanism in active matter using a novel phenomenological model
2020
Transport at microscopic length scales is essential in biological systems and various technologies, including microfluidics. Recent experiments achieved self-organized transport phenomena in microtubule active matter by using light to modulate motor-protein activity in time and space. Here, we introduce a novel phenomenological model that reveals a mechanism for emergent transport phenomena in active matter, including motility and contraction, though spatially modulated particle interactions. The model's analytic treatment elucidates the conservation of the center of mass of activated particles as a fundamental mechanism of material transport and demonstrates the necessity of memory for sustained motility. Furthermore, we generalize the model to explain other phenomena, like microtubule aster-aster interactions induced by more complicated activation geometries. Therefore, our model provides a possible foundation for the phenomenological understanding of light-controlled active matter and will enable the design and optimization of transport protocols for active matter devices.
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