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波带片在X射线与光学领域中发挥着重要作用。本文提出了一种广义斐波那契波带片(generalized Fibonacci zone plate, GFiZP)设计,该设计能够实现对X射线与光线聚焦特性的调控。与传统斐波那契波带片(Fibonacci zone plate, FiZP)及康托型分形波带片(Cantor-type fractal zone plate, FraZP)相比,该器件为调控聚焦性能提供了更多自由度。相较于康托型分形波带片,广义斐波那契波带片采用膨胀规则而非提取规则构建而成,因此可避免在高递归阶数下形成稀疏结构——而这类稀疏结构往往会给制备工艺带来难题。值得注意的是,数值模拟结果表明,与康托型分形波带片类似,广义斐波那契波带片同样具备两项关键功能:多焦点特性与自相似强度分布。此外,本文还针对不同结构参数下广义斐波那契波带片的轴向辐照度分布展开了详细研究。凭借这些优良特性,这种新型波带片设计在光学制造、微粒子光学操控等领域具有广阔的拓展应用前景。
Abstract:Zone plates play an important role in X-ray and optics fileds. In this work, we proposed a generalized Fibonacci zone plates(GFi ZP) is proposed, which enables the manipulation of focusing properties for X-ray and light. Compared to conventional Fibonacci zone plates(Fi ZPs) and Cantor-type fractal zone plates(Fra ZPs), this device offers additional degrees of freedom for engineering focusing performance. In comparison with Fra ZPs, GFi ZPs are constructed with inflation rule instead of extraction rule, thus avoiding sparse structures at high recursion orders, the sparse structures would lead to issues in fabrication. Notably, numerical simulations demonstrate that, similar to Fra ZPs, GFi ZPs retain two critical functionalities: multi-focal capability and self-similar intensity distribution. Furthermore, we conducted a detailed investigation into the axial irradiance profiles of GFi ZPs with varying structural parameters. Given these favorable properties, this novel zone plate design holds great potential for expanded applications in areas such as optical manufacturing and optical manipulation of microparticles.
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基本信息:
中图分类号:O434.1
引用信息:
[1]李保平,陈健,王静.扩展斐波那契波带片(英文)[J].物理与工程,2025,35(04):305-309+318.