Litcius/Paper detail

Dynamically actuated soft heliconical architecture via frequency of electric fields

Binghui Liu, Conglong Yuan, Honglong Hu, Hao Wang, Yuwen Zhu, Peizhi Sun, Z. Li, Zhigang Zheng, Quan Li

2022Nature Communications85 citationsDOIOpen Access PDF

Abstract

Dynamic electric field frequency actuated helical and spiral structures enable a plethora of attributes for advanced photonics and engineering in the contemporary era. Nevertheless, leveraging the frequency responsiveness of adaptive devices and systems within a broad dynamic range and maintaining restrained high-frequency induced heating remain challenging. Herein, we establish a frequency-actuated heliconical soft architecture that is quite distinct from that of common frequency-responsive soft materials. We achieve reversible modulation of the photonic bandgap in a wide spectral range by delicately coupling the frequency-dependent thermal effect, field-induced dielectric torque and elastic equilibrium. Furthermore, an information encoder prototype without the aid of complicated algorithm design is established to analogize an information encoding and decoding process with a more convenient and less costly way. A technique for taming and tailoring the distribution of the pitch length is exploited and embodied in a prototype of a spatially controlled soft photonic cavity and laser emission. This work demonstrates a distinct frequency responsiveness in a heliconical soft system, which may not merely inspire the interest in field-assisted bottom-up molecular engineering of soft matter but also facilitate the practicality of adaptive photonics.

Topics & Concepts

PhotonicsComputer scienceCoupling (piping)EncoderLaserOptoelectronicsElectronic engineeringMaterials sciencePhysicsOpticsEngineeringMetallurgyOperating systemAdvanced Materials and MechanicsLiquid Crystal Research AdvancementsPhotonic Crystals and Applications