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引用次数: 0
摘要
我们介绍了一种拓扑优化的金属结构,它可以实现导波太赫兹波的宽带波前工程。虽然最近展示的由弯曲金属表面组成的无介电太赫兹透镜有助于低损耗和点源耦合的基本横向电导太赫兹波波束成形,但由于模式的频率色散,这种设计在带宽方面受到很大限制。为了应对这一挑战,本文采用拓扑优化技术,通过表面结构定制有效折射率轮廓,实现了对导引太赫兹波的宽带操纵。300 GHz 附近的实验证明,在 50 GHz 的带宽内,能从点源产生腰围约为 15 mm 的定向波束。我们的方法为集成太赫兹系统提供了一个多功能设计框架。
Topology-Optimized Metal Structure for Broadband Wavefront Engineering of Guided Terahertz Waves
We introduce a topology-optimized metal structure that attains broadband wavefront engineering of guided terahertz waves. While the recent demonstrations of dielectric-free terahertz lenses composed of curved metal surfaces facilitate low-loss and point source-coupled beamforming for the fundamental transverse-electric guided terahertz waves, such designs are significantly constrained in bandwidth due to the frequency dispersion of the mode. To address this challenge, this article employs topology optimization to tailor the effective refractive index profile via the surface structure, achieving broadband manipulation of guided terahertz waves. Experiments around 300 GHz demonstrate the capability to produce a directional beam with an about 15 mm waist from a point source over a 50 GHz bandwidth. Our approach presents a versatile design framework for integrated terahertz systems.
期刊介绍:
IEEE Transactions on Terahertz Science and Technology focuses on original research on Terahertz theory, techniques, and applications as they relate to components, devices, circuits, and systems involving the generation, transmission, and detection of Terahertz waves.
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