加载引向器的SSPPs超宽带Vivaldi天线设计OACHSSCD
Design of ultra-wideband Vivaldi antennas for SSPPs loaded with directors
提出一种加载引向器的人工表面等离激元(Spoof Surface Plasmon Polaritons,SSPPs)超宽带Vival-di天线.针对传统Vivaldi天线增益较低的问题,通过集成SSPPs波导和加载引向器结构实现性能突破.首先,在传统Vivaldi天线中引入周期性凹槽的SSPPs波导结构,通过优化其椭圆渐变匹配设计,激发表面SSPPs模式,显著提升天线增益,同时保持超宽带特性.进一步在SSPPs超宽带Vivaldi天线基础上加载"凹"形引向器阵列,通过优化单元尺寸与周期性排布,有效调控表面电流分布并抑制表面波,使峰值增益提升至12.28 dBi,辐射效率最高达98%,工作带宽为14.63~36.54 GHz.结构上采用低损耗Rogers RT5880介质基板,实现了低剖面、高阻抗匹配及稳定的端射辐射特性.仿真结果表明,该设计在毫米波频段兼具超宽带、高增益与高效率优势,为未来毫米波通信系统的高性能天线设计提供了新思路.
A spoof surface plasmon polaritons(SSPPs)based ultra-wideband Vivaldi antenna integrated with a director was proposed in this paper.To address the low gain limitation of conventional Vivaldi antennas,a performance breakthrough was achieved through the synergistic integration of SSPPs waveguides and director loading structures.Initially,an SSPPs waveguide structure featuring periodic grooves was incorporated into the traditional Vivaldi antenna.By optimizing the elliptical gradient matc-hing design,the surface SSPPs mode was effectively excited,yielding significant gain enhancement while preserving ultra-wideband characteristics.Furthermore,a concave-shaped directional array was implemen-ted on the SSPPs-enhanced ultra-wideband Vivaldi antenna.Through meticulous optimization of unit dimensions and periodic arrangement,surface current distribution was precisely controlled and surface wave suppression was achieved,resulting in a peak gain of 12.28 dBi,radiation efficiency up to 98%,and an operational bandwidth spanning 14.63~36.54 GHz.The proposed configuration employs a low-loss Rogers RT5880 dielectric substrate,realizing low-profile geometry,high impedance matching,and stable end-fire radiation characteristics.Simulation results demonstrate that this design simultaneously achieves ultra-wideband operation,high gain,and superior efficiency in millimeter-wave frequencies,providing a novel paradigm for high-performance antenna development in next-generation millimeter-wave.
徐娟;王伟;王俊龙;王建超
曲阜师范大学 网络空间安全学院,山东 曲阜 273165曲阜师范大学 网络空间安全学院,山东 曲阜 273165曲阜师范大学 网络空间安全学院,山东 曲阜 273165曲阜师范大学 网络空间安全学院,山东 曲阜 273165
信息技术与安全科学
人工表面等离激元Vivaldi天线引向器超宽带
spoof surface plasmon polaritonsvivaldi antennadirectorultra-wideband
《聊城大学学报(自然科学版)》 2026 (3)
382-390,9
山东省自然科学基金项目(ZR2023MF038资助
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