中远红外超宽波段高反射一维光子晶体薄膜结构设计

作者:Tang Daolin; Li Xiangcheng*; Chen Ping'an; Zhu Yingli; Zhu Boquan
来源:Journal of the Chinese Ceramic Society, 2022, 50(5): 1310-1315.
DOI:10.14062/j.issn.0454-5648.20210376

摘要

The infrared films with ultra-high reflection is the key and basic materials for the realization of low loss optical device, infrared stealth, etc.. According to the transmission matrix principle of multilayer optical films, the reflectance and transmittance expressions of one-dimensional photonic crystals were obtained, and the energy band structure of one-dimensional photonic crystals was analyzed. Using the principle of transmission matrix, we designed a 28-layer λ/4 one-dimensional photonic crystal structure with Ge and SiO2 as dielectric materials. Also, the first and second band gaps of the photonic crystal calculated by the finite element method to be 2.01×1013~4.11×1013 Hz and 8.13×1013~1.02×1014 Hz, respectively. The optimized λ/4 one-dimensional photonic crystal structure has as low as 14 layers, thus achieving high reflections of 3~5μm and 8~14μm. ? 2022, Editorial Department of Journal of the Chinese Ceramic Society. All right reserved.

全文