基于半导体的可调谐太赫兹滤波器研究

太赫兹滤波器在通信、传感、成像等领域有着广泛的应用。提出了一个基于半导体材料砷化镓的周期性微结构可调谐太赫兹滤波器,并对半导体材料的电介质特性以及微结构的太赫兹滤波特性进行模拟研究。提出了基于光栅结构的太赫兹滤波器,用CST软件时域有限差分法(FDTD)进行模拟仿真,0.1~5.0 THz频段的太赫兹波垂直入射光栅表面,在225~325 K范围内可获得工作频率为0.35~1.51 THz,1.16 THz的滤波带宽,同时保持透过率在85%以上,这对太赫兹滤波器的滤波带宽和透过率的提升具有重大意义。

Abstract

Terahertz filter can be used for various application such as communication,sensing and imaging.This paper proposed a kind of tunable THz filter with periodic microstructure based on semiconductor material GaAs.Besides,the dielectric properties of the semiconductor and the transmission characteristics of the THz filter have been studied.The proposed THz filter based on grating structure,and the transmission characteristics of the filter has been investigated with the aid of the CST software through finite difference time domain method.The incident THz wave is perpendicular to the surface of grating from 0.1 THz to 5.0 THz.It turned out that the bandwidth can reach 1.16 THz from 0.35 THz to 1.51 THz with the temperature varied from 225 K to 325 K,while the transmission kept above 85%.It makes a great contribution to the improvement of the transmittance and the bandwidth of the Thz filter.

参考文献

[1] 刘盛纲,钟任斌.太赫兹科学技术及其应用的新发展［J］.电子科技大学学报,2009,38(5):481-486.

[2] 王文涛,刘建军,李向军,等.激光诱导和化学镀铜制备太赫兹偏振器和滤波器［J］.光学学报,2012,32(12):1231002.

[3] 常胜利,王晓峰,邵铮铮.太赫兹光谱技术原理及其应用［J］.国防科技,2015,36(2):17-22.

[4] 邸志刚,姚建铨,贾春荣,等.太赫兹成像技术在无损检测中的实验研究［J］.激光与红外,2011,41(10):1163-1166.

[5] 王思江,毛洪艳,夏良平,等.亚波长金属块阵列的太赫兹传感芯片［J］.光电工程,2016,43(1):82-87.

[6] 何明霞,陈涛.太赫兹科学技术在生物医学中的应用研究［J］.电子测量与仪器学报,2012,26(6):471-483.

[7] 郑新,刘超.太赫兹技术的发展及在雷达和通讯系统中的应用(Ⅱ)［J］.微波学报,2011,27(1):1-5.

[8] FERGUSON B,ZHANG X C.Materials for terahertz science and technology［J］.Nature Materials,2002,1(1):26-33.

[9] PENDRY J B,SCHURIG D,SMITH D R.Controlling electromagnetic fields.［J］.Science,2006,312(5781):1780-1782.

[10] DENG L Y,TENG J H,ZHANG L,et al.Extremely high extinction ratio terahertz broadband polarizer using bilayer subwavelength metal wire-grid structure［J］.Applied Physics Letters,2012,101(1):011101.

[11] WITHAYACHUMNANKUL W,LIN H,SERITA K,et al.Sub-diffraction thin-film sensing with planar terahertz metamaterials［J］.Optics Express,2012,20(3):3345-3352.

[12] HAN N R,CHEN Z C,LIM C S,et al.Broadband multi-layer terahertz metamaterials fabrication and characterization on flexible substrates［J］.Optics Express,2011,19(8):6990-6998.

[13] MAIER S A.Plasmonics:fundamentals and applications［M］.US:Springer,2007.

黄甜, 刘琪, 王琦, 张大伟. 基于半导体的可调谐太赫兹滤波器研究[J]. 光学仪器, 2017, 39(5): 70. HUANG Tian, LIU Qi, WANG Qi, ZHANG Dawei. Study of the tunable THz filter based on semiconductor[J]. Optical Instruments, 2017, 39(5): 70.

基于半导体的可调谐太赫兹滤波器研究

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