Electrically tunable liquid crystal lens with a serpentine electrode design
Justin Stevens, Tigran Galstian
Abstract
The design and operational principle of a new electrically tunable gradient index liquid crystal lens are described. The approach is based on linear serpentine electrodes and does not require a semiconductor layer. A preliminary validation is done for a lens with a 2 mm clear aperture, demonstrating 9.5 diopters of optical power and a root-mean-square wavefront error of 0.16 µm. The developed lens is tested with a miniature camera and the image quality improvement is demonstrated experimentally.
Topics & Concepts
OpticsMaterials scienceLens (geology)Refractive indexElectrodeLiquid crystalDioptreWavefrontOptoelectronicsImage qualityQuality (philosophy)SemiconductorOptical powerLiquid crystal tunable filterAdaptive opticsPower (physics)Crystal (programming language)Cylindrical lensLiquid Crystal Research AdvancementsElectrowetting and Microfluidic TechnologiesAdvanced Optical Imaging Technologies