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  5. Graphene-loaded metal wire grating for deep and broadband THz modulation in total internal reflectio

Graphene-loaded metal wire grating for deep and broadband THz modulation in total internal reflectio

来源 :PhotonicsResearch | 被引量 : 0次 | 上传用户:robinhohome
【摘 要】
We employed a metallic wire grating loaded with graphene and operating in total internal reflection (TIR) geometry to realize deep and broadband THz modulation. The non-resonant field enhancement effect of the evanescent wave in TIR geometry and in the su
【作 者】
YiwenSun RiccardoDegl’Innocenti DavidA.Ritchie HarveyE.Beere LongXiao MichaelRuggiero J.AxelZeitler RaykoI.Stantchev DanniChen ZhengchunPeng EmmaMacPherson XudongLiu 
【机 构】
National-RegionalKeyTechnologyEngineeringLaboratoryforMedicalUltrasound,GuangdongKeyLaboratoryforBio
【出 处】
PhotonicsResearch
【发表日期】
2018年6期
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论文部分内容阅读
We employed a metallic wire grating loaded with graphene and operating in total internal reflection (TIR) geometry to realize deep and broadband THz modulation. The non-resonant field enhancement effect of the evanescent wave in TIR geometry and in the subwavelength wire grating was combined to demonstrate a 77% modulation depth (MD) in the frequency range of 0.2–1.4 THz. This MD, achieved electrically with a SiO2/Si gated graphene device, was 4.5 times higher than that of the device without a metal grating in transmission geometry. By optimizing the parameters of the metallic wire grating, the required sheet conductivity of graphene for deep modulation was lowered to 0.87 mS. This work has potential applications in THz communication and real-time THz imaging.
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