Evaluation of the possibilities of 3D-printing for the making of waveguide photonic crystals

Physics of Wave Processes and Radio Systems Pub Date : 2022-09-29 DOI:10.18469/1810-3189.2022.25.3.29-35

A. I. Mikhailov, E. A. Ryabov, S. A. Sergeev

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Abstract

The paper considers the possibilities of 3D printing technology for the manufacture of X-band waveguide photonic crystals. The photonic crystals for an EIA WR-90 standard rectangular waveguide with a cross section of 22,86 10,16 mm2 in the X-band were designed and manufactured. Numerical modeling of the reflection characteristics of photonic crystals of several designs in the OpenEMS software package was carried out. Based on the simulation results, the best types of the structures were selected, which were manufactured using the physical modeling technique by the fusion method of PETG plastic. Experimental study of the manufactured layouts and comparison of the experimental data with the numerical simulation data were performed. The best types of manufactured models of waveguide photonic crystals showed transmittance and reflection drop in the corresponding frequency bands of the order of 1520 dB, which is acceptable for technical applications. The numerical modeling results are in good agreement with experiments, thus indicating the high efficiency and good control of the topology and dimensions of the manufactured photonic crystals structural elements in the used type of 3D printing technology.

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评价3d打印制造波导光子晶体的可能性

本文考虑了3D打印技术制造x波段波导光子晶体的可能性。设计并制备了x波段横截面分别为22、86、10、16 mm2的EIA WR-90标准矩形波导的光子晶体。在OpenEMS软件中对几种设计的光子晶体的反射特性进行了数值模拟。根据仿真结果，选择了最佳的结构类型，并采用PETG塑料的熔融方法进行了物理建模。对制造的布局进行了实验研究，并将实验数据与数值模拟数据进行了比较。制造的最佳型号波导光子晶体在相应频段的透射率和反射率下降约为1520db，在技术应用上是可以接受的。数值模拟结果与实验结果吻合较好，表明所使用的3D打印技术具有高效率和对制造的光子晶体结构元件的拓扑和尺寸的良好控制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Physics of Wave Processes and Radio Systems

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