Enhancement of THz absorption in monolayer graphene for light at Brewster angle incidence

Publication date: Available online 20 September 2019Source: Physics Letters AAuthor(s): Jun WuAbstractThe enhancement of absorption in graphene for light at Brewster angle incidence is investigated. It is achieved by placing a graphene on a resonant Brewster filter that incorporating a spacer layer. The absorber presents above 50% absorption at resonance, which is attributed to the excitation of guided mode resonances. The electromagnetic field intensity distributions are illustrated to intuitively confirm the physical mechanism of such phenomenon. Moreover, the influence of geometric parameters on absorption is investigated to provide a useful guidance for practical fabrication. Besides, it is found that the absorption properties not only can be controlled by adjusting the incident angle but also can be dynamically tuned by changing the Fermi level. Last, the graphene absorption can be easily extended to multichannel by only an increase in the thickness of spacer. The results open new avenues for combing graphene with general guided mode resonance structure to enable novel optoelectronics device applications.
Source: Physics Letters A - Category: Physics Source Type: research
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