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Optically enriched and guided dynamics of active skyrmions

Hayley R. O. Sohn, Changda D. Liu, Robert Voinescu, Zezhang Chen, Ivan I. Smalyukh

2020Optics Express20 citationsDOIOpen Access PDF

Abstract

Light provides a powerful means of controlling physical behavior of materials but is rarely used to power and guide active matter systems. We demonstrate optical control of liquid crystalline topological solitons dubbed "skyrmions", which recently emerged as highly reconfigurable inanimate active particles capable of exhibiting emergent collective behaviors like schooling. Because of a chiral nematic liquid crystal's natural tendency to twist and its facile response to electric fields and light, it serves as a testbed for dynamic control of skyrmions and other active particles. Using ambient-intensity unstructured light, we demonstrate large-scale multifaceted reconfigurations and unjamming of collective skyrmion motions powered by oscillating electric fields and guided by optically-induced obstacles and patterned illumination.

Topics & Concepts

SkyrmionActive matterPhysicsElectric fieldLiquid crystalTestbedOpticsOptical phenomenaDynamics (music)TwistOptical forcePhase conjugationOptically activeTopological defectQuasiparticleTopology (electrical circuits)Phase (matter)OptoelectronicsPower (physics)Laser beamsNonlinear opticsPhysical opticsField (mathematics)Phase controlOptical tweezersRayElectric powerLight scatteringLight intensityCondensed matter physicsLight beamMicro and Nano RoboticsAdvanced Materials and MechanicsLiquid Crystal Research Advancements
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