Title :
The research of THz enhancement transmittance based on metamaterials
Author :
Degang Xu ; Hao Zhang ; Hong Yu ; Jiaqi Li ; Chao Yan ; Wei Shi ; Jianquan Yao
Author_Institution :
Inst. of Laser & Opto-Electron., Tianjin Univ., Tianjin, China
Abstract :
THz parametric oscillators (TPOs) based on phonon-polariton scattering in a LiNbO3 crystal are one of promise methods of obtaining high power tunable THz radiation. However, how to effectively reduce the absorption and enhance the transmittance of terahertz (THz) in LiNbO3 still remains a question. In this paper, we present a numerical simulation solution of antireflection coating using metamaterials based on Lithium niobate substrates. This structure effectively reduces the reflection and enhances the transmission near a specifically designed terahertz (THz) frequency band. Nearly 1.7% of reflection rate and over 94.7% of transmission rate are obtained near 1.2~1.3 THz. Such a design can promote THz wave, which has been generated in or pass through Lithium niobate, to radiate to outside space.
Keywords :
antireflection coatings; lithium compounds; microwave photonics; numerical analysis; optical design techniques; optical metamaterials; terahertz metamaterials; terahertz wave generation; terahertz wave spectra; LiNbO3; THz enhancement transmittance; THz parametric oscillators; THz wave generation; antireflection coating; high power tunable THz radiation; lithium niobate substrates; metamaterials; numerical simulation; phonon-polariton scattering; reflection; terahertz absorption; terahertz frequency band; Metamaterials; Nanobioscience; Reflectivity;
Conference_Titel :
Infrared, Millimeter, and Terahertz Waves (IRMMW-THz), 2013 38th International Conference on
Conference_Location :
Mainz
DOI :
10.1109/IRMMW-THz.2013.6665417
