光学
材料科学
湿度
折射率
大气光学
衰减系数
光电子学
信号处理
遥感
光强度
频率调制
反射率
光散射
相对湿度
激光束
频率响应
作者
Hao Yi,miaofang zhou,Enduo Gao,Qingqing Xiang,Hui Yang,Hai He,zhiying zhu,Song Liu,Tao Yu,Min Pan,Ren Guo,Gengbiao Lu,Yan Deng,Guangtao Cao
出处
期刊:Optics Letters
[Optica Publishing Group]
日期:2026-03-12
卷期号:51 (7): 1883-1883
摘要
Plasmon-induced transparency (PIT) offers a promising route for enhancing light-matter interactions. However, in existing studies, the dynamic tuning of PIT exhibits an overall frequency-shift trend with changes in graphene carrier mobility. This paper proposes a periodic array composed of Π-shaped graphene and graphene strips, achieving a triple PIT through a composite mechanism of destructive interference between bright and dark modes and coupling between bright modes. Research demonstrates that as carrier mobility increases, the four transmission dips exhibit significant selective frequency shifts, with the first one remaining particularly stable. This is attributed to dip1 being primarily dominated by the dark mode, whose inherent tendency to blue-shift counteracts the red-shift trend induced by increasing carrier mobility. The composite mechanism generating the triple PIT provides inspiration for the design of self-referencing optical humidity sensors (0.49 GHz/%RH).
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