材料科学
光电子学
等离子体子
吸收(声学)
电介质
光学
导模共振
栅栏
极化(电化学)
衍射光栅
物理
复合材料
化学
物理化学
作者
Houjiao Zhang,Zhengqi Liu,Haozong Zhong,Guiqiang Liu,Xiaoshan Liu,Junqiao Wang
出处
期刊:Optics Express
[Optica Publishing Group]
日期:2020-11-16
卷期号:28 (24): 37049-37049
被引量:9
摘要
In this work, we numerically demonstrate a new facile strategy for all-dielectric broadband optical perfect absorbers. A monolayer refractory titanium oxide and nitride (TiN/TiO 2 ) core-shell nanowires array is used to form the grating on the opaque TiN substrate. Multiple resonant absorption bands are observed in the adjacent wavelength range, which therefore leads to the formation of an ultra-broadband absorption window from the visible to the infrared regime. The maximal absorption reaches 95.6% and the average absorption efficiency in the whole range (0.5–1.8 µm) is up to 85.4%. Moreover, the absorption bandwidth can be feasibly adjusted while the absorption efficiency can be still maintained in a high level via tuning the polarization state. Furthermore, the absorption window is observed to be highly adjustable in the wavelength range, showing a nearly linear relationship to the shell's index. These features not only confirm the achievement of the broadband perfect absorption but also introduce feasible ways to artificially manipulate the absorption properties, which will hold wide applications in metal-free plasmonic optoelectronic devices such as the solar harvesting, photo-detection, and thermal generation and its related bio-medical techniques.
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