Litcius/Paper detail

Electrical tuning of branched flow of light

Shanshan Chang, Kehui Wu, Sijia Liu, Zhi‐Kang Lin, Jin‐Bing Wu, Shi‐Jun Ge, Lujian Chen, Peng Chen, Wei Hu, Yadong Xu, Huanyang Chen, Dahai He, Daquan Yang, Jian‐Hua Jiang, Yanqing Lu, Jinhui Chen

2024Nature Communications16 citationsDOIOpen Access PDF

Abstract

Branched flows occur ubiquitously in various wave systems, when the propagating waves encounter weak correlated scattering potentials. Here we report the experimental realization of electrical tuning of the branched flow of light using a nematic liquid crystal (NLC) system. We create the physical realization of the weakly correlated disordered potentials of light via the inhomogeneous orientations of the NLC. We demonstrate that the branched flow of light can be switched on and off as well as tuned continuously through the electro-optical properties of NLC film. We further show that the branched flow can be manipulated by the polarization of the incident light due to the optical anisotropy of the NLC film. The nature of the branched flow of light is revealed via the unconventional intensity statistics and the rapid fidelity decay along the light propagation. Our study unveils an excellent platform for the tuning of the branched flow of light which creates a testbed for fundamental physics and offers a new way for steering light.

Topics & Concepts

Light scatteringRayAnisotropyFlow (mathematics)Polarization (electrochemistry)Liquid crystalOpticsTestbedPhysicsRealization (probability)Light intensityOptoelectronicsScatteringMaterials scienceMechanicsChemistryComputer sciencePhysical chemistryComputer networkMathematicsStatisticsLiquid Crystal Research AdvancementsRandom lasers and scattering mediaNonlinear Dynamics and Pattern Formation