Inicio  /  Coatings  /  Vol: 12 Par: 7 (2022)  /  Artículo
ARTÍCULO
TITULO

Perfect Absorption of Fan-Shaped Graphene Absorbers with Good Adjustability in the Mid-Infrared

Hongyu Ren    
Qianyi Shangguan    
Zijun Song    
Yong Zhao    
Zao Yi    
Guolu Ma    
Jianguo Zhang    
Hua Yang    
Shifa Wang and Pinghui Wu    

Resumen

This paper presents a graphene metamaterial absorber based on impedance matching. A finite difference in time domain (FDTD) method is used to achieve a theoretically perfect absorption in the mid-infrared band. A basis is created for the multiband stable high absorption of graphene in the mid-infrared. The designed graphene absorber is composed of graphene, a dielectric layer, a gold plane, and a silicon substrate, separately. The incident source of mid-infrared can be utilized to stimulate multiband resonance absorption peaks from 2.55 to 4.15 µm. The simulation results show that the absorber has three perfect resonance peaks exceeding 99% at ?1 = 2.67 µm, ?2 = 2.87 µm, and ?3 = 3.68 µm, which achieve an absorption efficiency of 99.67%, 99.61%, and 99.40%, respectively. Furthermore, the absorber maintains an excellent performance with a wide incident angle range of 0°?45°, and it also keeps the insensitive characteristic to transverse electric wave (TE) and transverse magnetic wave (TM). The results above indicate that our perfect graphene absorber, with its tunability and wide adaptability, has many potential applications in the fields of biosensing, photodetection, and photocell.

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