面向6G通信的场调控拓扑超表面太赫兹探测器OACHSSCD
Field-controlled topological metasurface Terahertz detector for 6G communications
为提升太赫兹探测器性能,本文设计并制备了基于拓扑超表面与 MnBi2Te4薄膜的太赫兹探测器件.采用3D打印技术制作L形亚波长微结构,通过磁控溅射法沉积 MnBi2Te4薄层,利用 MnBi2Te4的拓扑表面态特性与L形结构的局域表面等离子体谐振效应,实现太赫兹波强局域化与高效能量耦合.实验表征其在0.1THz频段的性能:无外场时,响应度(RA)达1.72 A/W,噪声等效功率(NEP)低至8.23 pW/Hz1/2,探测率(D*)最高5.43×109 cm·Hz1/2/W;外加磁场与激光后,RA 最高提升至 3.01 A/W,NEP降至5.69 pW/Hz1/2,D*达7.85×109 cm·Hz1/2/W.研究表明,L形拓扑结构与磁场/光场增强作用,可显著优化探测器光电转换效率与噪声抑制能力,为高性能太赫兹探测提供新方案.
To enhance the performance of terahertz detectors,this study designed and fabricated a tera-hertz detection device based on an topological metasurface and an MnBi2Te4 thin film.The L-shaped subwavelength microstructures were fabricated using 3D printing technology,and the MnBi2Te4 thin layer was deposited via magnetron sputtering.By leveraging the topological surface state properties of MnBi2Te4 and the localized surface plasmon resonance effect of the L-shaped structure,strong localization of tera-hertz waves and efficient energy coupling were achieved.The device's performance in the 0.1 THz frequen-cy band was characterized experimentally:without external field,the responsivity(RA)reached 1.72 A/W,the noise-equivalent power(NEP)was as low as 8.23 pW/Hz1/2,and the detectivity(D*)peaked at 5.43×109 cm·Hz1/2/W.After applying an external magnetic field(0.145 mT)and laser(50 mW),the RA was maximally increased to 3.01 A/W,the NEP was reduced to 5.69 pW/Hz1/2,and the D* reached 7.85×109 cm·Hz1/2/W.The research indicates that the L-shaped topological structure and the enhancement effects of the magnetic/optical field can significantly optimize the photoelectric conversion efficiency and noise suppression capability of the detector,providing a new solution for high-performance terahertz detec-tion.
许文浩;孙作昂;王文哲;张敏;宋琦
聊城大学 物理科学与信息工程学院,山东 聊城 252059聊城大学 物理科学与信息工程学院,山东 聊城 252059聊城大学 物理科学与信息工程学院,山东 聊城 252059深圳大学 异质异构集成全国重点实验室、光电子器件与系统教育部广东省重点实验室、深圳大学物理与光电工程学院,广东 深圳 518000聊城大学 物理科学与信息工程学院,山东 聊城 252059
信息技术与安全科学
太赫兹探测器拓扑超表面MnBi2Te4薄膜
Terahertz detectortopological metasurfaceMnBi2Te4 film
《聊城大学学报(自然科学版)》 2026 (4)
535-543,9
国家自然科学基金项目(12104314)山东省自然科学基金项目(ZR2024QF217)山东省高等学校青年创新团队发展计划项目(2024KJH132)资助
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