Electrically Active Terahertz Liquid‐Crystal Metasurface for Polarization Vortex Beam Switching
Sheng Wang, Hangbing Guo, Benwen Chen, Xinyu Hu, Wei Zhu, Jingbo Wu, Caihong Zhang, Kebin Fan, Huabing Wang, Biaobing Jin, Jian Chen, Peiheng Wu
Abstract
Abstract Polarized vortex waves have attracted widespread attention in investigations of light–matter interactions and the augmentation of information capacity owing to their distinctive characteristics. Nevertheless, the reconfigurable generation of vector beams, especially at terahertz (THz) frequencies, remains challenging. In this study, a tunable THz polarization vortex beam generator based on a liquid‐crystal metasurface is proposed. A unit cell featuring reconfigurable linear polarization selectivity is developed. A general methodology for designing metasurfaces to generate customized and reconfigurable polarization patterns is introduced. Furthermore, the electrically tunable generation of polarized patterns and cylinder vector beams is experimentally demonstrated. The findings of this study can open up opportunities for wireless communication and super‐resolution imaging applications.