Iryna O Mikhailikova, Denys M Natarov, Sergii V Dukhopelnykov, Ronan Sauleau, Mario Lucido, Oleksandr I Nosych
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引用次数: 0
摘要
我们考虑了在 H 极化情况下,配备有石墨烯共形条带的层状圆柱形卢内堡透镜的平面波聚焦特性。石墨烯带的角宽度和位置是任意的,其表面阻抗借助量子物理库博形式主义来表征。我们使用了一种数学上精确的全波分析正则化技术,该技术基于问题静态部分的显式反演,并产生了一个弗雷德霍姆第二类矩阵方程。这保证了由此产生的无网格数值算法的收敛性。我们计算了微型透镜在高达 60 太赫兹的宽频范围内的聚焦能力。分析表明,将石墨烯条带置于卢内堡透镜的焦点区域,可增强其在条带等离子体模式共振频率下的聚焦能力,与品质因数成正比。该频率由石墨烯带的宽度决定,并可借助石墨烯的化学势进行调节。
Tunable enhancement of the cylindrical Luneburg lens focusing ability with the aid of a conformal graphene strip.
We consider the plane wave focusing characteristics of the layered cylindrical Luneburg lens equipped with a conformal strip of graphene, in the H-polarization case. The angular width and location of the strip is arbitrary, and its surface impedance is characterized with the aid of the quantum-physics Kubo formalism. We use a mathematically accurate full-wave analytical regularization technique, which is based on the explicit inversion of the problem static part and yields a Fredholm second-kind matrix equation. This guarantees the convergence of the resulting meshless numerical algorithm. We compute the focusing ability of a microsize lens as a function of the frequency in the wide range up to 60 THz. This analysis shows that a graphene strip, placed into the focal area of the Luneburg lens, enhances its focusing ability at the resonance frequency of the strip plasmon mode proportionally to the quality factor. This frequency is defined by the strip width and is tunable with the aid of graphene's chemical potential.
期刊介绍:
Optics Express is the all-electronic, open access journal for optics providing rapid publication for peer-reviewed articles that emphasize scientific and technology innovations in all aspects of optics and photonics.