%0 Journal Article
%T 基于双波长偏振调控的多功能超构表面
Dual-Wavelength Polarization Modulated Multifunctional Metasurface
%A 刘春龙
%J Journal of Advances in Physical Chemistry
%P 183-190
%@ 2168-6130
%D 2025
%I Hans Publishing
%R 10.12677/japc.2025.142017
%X 传统单一自由度的超构表面难以实现复杂的光场调控,而多功能集成器件的开发则为突破这一瓶颈提供了可能。本文提出了一种基于几何相位调控的双波长多功能太赫兹超构表面,通过亚波长单元结构的旋转角度设计,实现了跨波段偏振态与三维光场的协同操控。超表面在0.52太赫兹表现为偏振分束器,而在0.6太赫兹表现为涡旋发射器。改变超表面相位分布,进一步实现了双波长偏振相关的全息加密功能。仿真验证了器件在横向/纵向光场调控、多维度信息编码方面的灵活性,为集成光子器件、光学加密通信及智能成像系统提供了新的设计方法。
Conventional single-degree-of-freedom metasurfaces face limitations in achieving complex optical field manipulation, while the development of multifunctional integrated devices offers a breakthrough pathway. This study proposes a dual-wavelength multifunctional terahertz metasurface based on geometric phase modulation. Through rotational angle design of subwavelength unit structures, the metasurface enables synergistic control of polarization states and three-dimensional optical fields across distinct frequency bands. Specifically, the device functions as a polarization beam splitter at 0.52 THz and switches to a vortex generator mode at 0.6 THz. By reconfiguring the phase distribution, it further realizes dual-wavelength polarization-dependent holographic encryption functionality. Numerical simulations validate the device’s versatility in transverse/longitudinal optical field manipulation and multidimensional information encoding, providing novel design methodologies for integrated photonic devices, secure optical communication systems, and intelligent imaging architectures.
%K 超构表面,
%K 几何相位,
%K 双波长,
%K 多维复用,
%K 全息加密
Metasurfaces
%K Geometric Phases
%K Dual-Wavelength
%K Multidimensional Multiplexing
%K Holographic Encryption
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=113944