An Experimental Analysis on Spectrum Absorption Characteristics of High-Tem-perature Material Based on Nanostructure
Abstract
YANG Shuhan, SHEN Bin, DAI Bin and LIANG Haijian
High-temperature metal nanostructure endows various potential appli- cations in optical communication, aerospace and other fields. In this let- ter, periodical nanostructure with high-temperature metal is proposed to enhance spectrum absorption. The absorption characteristics and mech- anism were investigated and analyzed in the range of 360 ∼ 760 nm wavelength based on the finite difference time domain (FDTD) method. The results indicate that particle shape, material, and period are the main factors affecting absorption. After optimization, the peak and aver- age absorption reach 68.6% and 61.32% respectively. The coupling between surface plasmon polaritons (SPPs) and local surface plasmon resonance (SPR) enhances the optical properties obviously. The results have certain reference value for the application of high-temperature metal nanostructure in special environments.