Shaping and Slotting High-Q Spherical Resonators for Suppression of Higher Order Modes

Cheng Guo, Jin Li, Yang Yu, Fan Zhang, Sheng Li, Moataz M. Attallah, X. Shang, A. Zhang, Yi Wang, M. Lancaster
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引用次数: 8

Abstract

This paper proposes two methods to improve the spurious-free stopband range for high-quality-factor spherical resonators and a new family of shaped spherical resonators are presented. Geometrical shaping of the proposed resonators is realized by symmetrically squeezing a spherical cavity and further opening a rectangular slot in each squeezed area. The higher order modes of the resonator are first tuned spectrally farther away from the dominant mode by the squeezing, and then are suppressed by the slotting. X-band resonator prototypes are designed, and 3-D printed by using a metallic selective laser melting technique. Quality factors of the fabricated resonators are further improved by vibration grinding process. The experiment validates effective suppression of the first higher order mode and indicates potential applications of the proposed resonators in bandpass filters to extend the spurious-free stopband bandwidths.
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用于抑制高阶模态的高q球形谐振器的整形和开槽
本文提出了两种提高高质量因数球形谐振器无杂散阻带范围的方法,并提出了一类新的异形球形谐振器。所提出的谐振器的几何形状是通过对称地挤压一个球形腔并在每个挤压区域进一步打开一个矩形槽来实现的。谐振腔的高阶模首先通过压缩在频谱上远离主模,然后通过开槽抑制。设计了x波段谐振器原型,并采用金属选择性激光熔化技术进行了3d打印。通过振动磨削工艺,进一步提高了谐振器的质量系数。实验验证了对第一阶高阶模式的有效抑制,并指出了所提出的谐振器在带通滤波器中扩展无杂散阻带带宽的潜在应用。
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