Jiang Fan, Deng Chao-Sheng, Lin Qi, Wang Ling-Ling
Opt Express. 2019 Oct 28;27(22):32122-32134. doi: 10.1364/OE.27.032122.
We proposed and numerically investigated a coupled photonic crystal nanobeam (PCN) cavity-waveguide system which is composed of a bus waveguide and two one-dimensional PCN cavities, acting as bright and dark mode cavities, to achieve a distinct electromagnetically induced transparency analogue (EIT-like) effect by changing the near-field coupling strength between two cavities. By further integrating with graphene on top of the dark mode cavity, the three-dimensional finite-difference time-domain simulation results show that the generated EIT-like transparency window can be actively tuned and a complete on-to-off modulation of the EIT-like effect is realized by electrically tuning the graphene's Fermi level without reoptimizing or refabricating the structure. Theoretical analysis based on the coupled mode theory is then conducted and the results are highly consistent with the numerical results. In addition, we demonstrated that the group delay of the system can also be actively modulated by changing the Fermi level of graphene, achieving a well-controlled slow light effect. Our proposed coupled PCN cavity-waveguide system, combining the merits of PCN cavity and graphene in a single device, may provide a new platform for applications in chip-integrated slow light devices, tunable switches, optical modulators and high-sensitive sensors.
我们提出并通过数值研究了一种耦合光子晶体纳米梁(PCN)腔 - 波导系统,该系统由一个总线波导和两个一维PCN腔组成,这两个PCN腔分别作为亮模腔和暗模腔,通过改变两个腔之间的近场耦合强度来实现一种独特的电磁诱导透明类似物(类EIT)效应。通过在暗模腔顶部进一步集成石墨烯,三维有限差分时域模拟结果表明,所产生的类EIT透明窗口可以被主动调谐,并且通过电调谐石墨烯的费米能级,在不重新优化或重新制造结构的情况下实现了类EIT效应的完全开 - 关调制。然后基于耦合模理论进行了理论分析,结果与数值结果高度一致。此外,我们证明了通过改变石墨烯的费米能级,系统的群延迟也可以被主动调制,从而实现了可控的慢光效应。我们提出的耦合PCN腔 - 波导系统在单个器件中结合了PCN腔和石墨烯的优点,可能为片上集成慢光器件、可调谐开关、光调制器和高灵敏度传感器的应用提供一个新平台。