Litcius/Paper detail

Rectification and confinement of photokinetic bacteria in an optical feedback loop

Helena Massana‐Cid, Claudio Maggi, Giacomo Frangipane, Roberto Di Leonardo

2022Nature Communications35 citationsDOIOpen Access PDF

Abstract

Active particles can self-propel by exploiting locally available energy resources. When powered by light, these resources can be distributed with high resolution allowing spatio-temporal modulation of motility. Here we show that the random walks of light-driven bacteria are rectified when they swim in a structured light field that is obtained by a simple geometric transformation of a previous system snapshot. The obtained currents achieve an optimal value that we establish by general theoretical arguments. This optical feedback is used to gather and confine bacteria in high-density and high-activity regions that can be dynamically relocated and reconfigured. Moving away from the boundaries of these optically confined states, the density decays to zero in a few tens of micrometers, exhibiting steep exponential tails that suppress cell escape and ensure long-term stability. Our method is general and scalable, providing a versatile tool to produce localized and tunable active baths for microengineering applications and systematic studies of non-equilibrium phenomena in active systems.

Topics & Concepts

Loop (graph theory)Feedback loopPhysicsComputer scienceMathematicsCombinatoricsComputer securityMicro and Nano RoboticsMolecular Communication and NanonetworksMicrofluidic and Bio-sensing Technologies