Reduction of the beam-coupling impedance in accelerating structures using metamaterial-based absorbers

机译：使用基于超材料的吸收器降低加速结构中的束耦合阻抗

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Resistive-wall impedance constitutes a significant percentage of the total beam-coupling impedance budget of an accelerator. Under extreme conditions, like large power handling and ultrahigh vacuum, metamaterial-based absorbers can represent a valid alternative to other approaches for impedance mitigation in specific accelerator components, like resonant (parasitic) cavities or collimators operating along the beam line. We design sub-wavelength 2D metallic resonant structures based on split rings or on 3D hyperbolic tapered waveguide arrays that can be employed as mode dampers in accelerating structures. A number of prototypes are fabricated and then measured in a 'test model' pillbox cavity.

机译：电阻壁阻抗在加速器的总束耦合阻抗预算中占很大比例。在极端条件下，例如大功率处理和超高真空，基于超材料的吸收器可以替代特定加速器组件（例如沿光束线工作的谐振（寄生）腔或准直仪）中用于减小阻抗的其他方法的有效替代方案。我们设计基于裂环或基于3D双曲锥形波导阵列的亚波长2D金属谐振结构，这些结构可以用作加速结构中的模式阻尼器。制造了许多原型，然后在“测试模型”药盒腔中对其进行了测量。

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来源
《International Congress on Artificial Materials for Novel Wave Phenomena》|2018年|278-280|共3页
会议地点 Espoo(FI)
作者
M. R. Masullo; A Pugliese; N. Chikhi; V. G. Vaccaro; R. Losito; A. Masi; C. Koral; G. P. Papari; A. Andreone;
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via Cinthia I.N.F.N. Naples Unit Naples I-80126 Italy;

Engineering Department;

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Cavity resonators; Metamaterials; Impedance; Resonant frequency; Particle beams; Magnetic materials;

机译：腔谐振器；超材料；阻抗;共振频率粒子束；磁性材料;

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专利

1. Metamaterial-Based Absorbers for the Reduction of Accelerator Beam-Coupling Impedance [J] . Masullo Maria Rosaria, Vaccaro Vittorio Giorgio, Losito Roberto, IEEE Transactions on Microwave Theory and Techniques . 2020,第4期

机译：用于减少加速器光束耦合阻抗的超材料吸收器
2. Elastic metamaterial-based impedance-varying phononic bandgap structures for bandpass filters [J] . Lee Hyung Jin, Lee Joo Kyung, Kim Yoon Young Journal of Sound and Vibration . 2015,第Null期

机译：用于带通滤波器的基于超材料的弹性变阻抗声子带隙结构
3. Metamaterial-based frustum of cones array nanostructure for efficient absorber in the solar spectral band [J] . Sen Hu, Helin Yang, Xiaojun Huang, Applied Physics . 2014,第3期

机译：圆锥阵列纳米结构的基于超材料的视锥，用于有效吸收太阳光谱带
4. Reduction of the beam-coupling impedance in accelerating structures using metamaterial-based absorbers [C] . M. R. Masullo, A Pugliese, N. Chikhi, International Congress on Artificial Materials for Novel Wave Phenomena . 2018

机译：使用超基于材料的吸收剂减少加速结构的光束耦合阻抗
5. Advanced studies on transfer impedance with application to after-treatment devices and micro-perforated panel absorbers. [D] . Hua, Xin. 2013

机译：转移阻抗的高级研究及其在后处理设备和微孔板式吸收器中的应用。
6. High Quality Factor High Sensitivity Metamaterial Graphene—Perfect Absorber Based on Critical Coupling Theory and Impedance Matching [O] . Chunlian Cen, Zeqiang Chen, Danyang Xu, 2020

机译：基于临界耦合理论和阻抗匹配的优质因子高灵敏度超材料石墨烯—完美吸收体
7. Vibration Control of Flexible Structures Based on Impedance Matching Index : Optimal Tuning of Passive Dampers and Dynamic Absorbers(Mechanical Systems) [O] . Kenji NAGASE, Yasuyuki TAKEUCHI 2010

机译：基于阻抗匹配指标的柔性结构的振动控制：无源阻尼器的最佳调谐和动态吸收剂（机械系统）

Reduction of the beam-coupling impedance in accelerating structures using metamaterial-based absorbers

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