Xu He-Xiu, Wang Guang-Ming, Cai Tong, Xiao Jun, Zhuang Ya-Qiang
Opt Express. 2016 Nov 28;24(24):27836-27848. doi: 10.1364/OE.24.027836.
Pancharatnam-Berry (PB) metasurfaces have intrigued a great deal of interest in recent years for anomalous reflection/refraction, vortex plate, orbital angular momentum, flat lens, photonic spin hall effect (PSHE), holograms and reflect/transmit arrays. However, almost all designs are restricted to fixed electrical performance/functionality once the design is finished. Here, we report for the first time a strategy for PB metasurface with agile working frequency by involving each meta-atom with tunable PIN diodes. For verification, a tunable PB metasurface with frequency reconfigurability is designed and numerically characterized across C and X band. By controlling the external voltages imposed on the diodes, numerical results show that the operation band with 180° phase difference between orthogonal reflection coefficients can be dynamically controlled. As such, the resulting PB metasurface composed of these orderly rotated meta-atoms exhibits a broadband PSHE with nearly 100% conversion efficiency in the "On" state while switches to dual well-separated bands in the "Off" state. Our proposal, not confined to PHSE, set a solid platform for PB phase control and can be populated to any dual-functional and/or multifunctional devices with high integrity, stability and low cost.
近年来,潘查拉特南-贝里(PB)超表面因异常反射/折射、涡旋板、轨道角动量、平面透镜、光子自旋霍尔效应(PSHE)、全息图以及反射/透射阵列而引发了广泛关注。然而,几乎所有设计一旦完成,其电气性能/功能就被固定下来。在此,我们首次报道一种通过在每个超原子中引入可调谐PIN二极管来实现PB超表面工作频率灵活可调的策略。为进行验证,设计了一种具有频率可重构性的可调谐PB超表面,并在C波段和X波段进行了数值表征。通过控制施加在二极管上的外部电压,数值结果表明,正交反射系数之间相位差为180°的工作频段可动态控制。如此一来,由这些有序旋转的超原子组成的PB超表面在“开”状态下呈现出具有近100%转换效率的宽带PSHE,而在“关”状态下切换到两个分离良好的频段。我们的方案不限于PSHE,为PB相位控制搭建了一个坚实的平台,并且可应用于任何具有高完整性、稳定性和低成本的双功能和/或多功能器件。
