Effect of Symmetry on Insertion Loss in SRR and CSRR Transmitarray Unit Cells Implementing the Element Rotation Method

Erdil Emre; Topalli Kagan; Civi Ozlem Aydin

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Effect of Symmetry on Insertion Loss in SRR and CSRR Transmitarray Unit Cells Implementing the Element Rotation Method

机译：实现元素旋转方法的对称性对SRR和CSRR发射阵列单位细胞插入损耗的影响

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摘要

Insertion loss variation with respect to rotation angle is examined for geometrically symmetrical and unsymmetrical split ring resonators (SRR) and complementary split ring resonators (CSRR) transmitarray unit cells implementing the element rotation method. Generalized design conditions for the implementation of the method on transmitarrays are derived. Based on the S-parameters obtained by full-wave electromagnetic simulations and field analysis, it is shown that the symmetry of CSRR unit cells has an important effect on decreasing insertion loss variation with respect to rotation angle. Up to 3 dB improvement in insertion loss is achieved for the symmetrical single ring double split CSRR type unit cell. It is also shown for two nested non symmetric SRR unit cells that, insertion loss is almost independent of the element rotation when the transmission is mainly provided by the symmetrical part of the unit cell.

机译：对于实现元件旋转方法的几何对称和非对称裂环谐振器（SRR）和互补裂环谐振器（CSRR）发射阵列单位单元，检查了相对于旋转角度的插入损耗变化。推导了在发送阵列上实现该方法的一般设计条件。基于通过全波电磁仿真和场分析获得的S参数，可以看出CSRR晶胞的对称性对于减小插入损耗相对于旋转角度的变化具有重要影响。对于对称单环双分裂CSRR型单位电池，插入损耗最多可提高3 dB。对于两个嵌套的非对称SRR单位单元，还显示出，当传输主要由单位单元的对称部分提供时，插入损耗几乎与元素旋转无关。

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来源
《Applied Computational Electromagnetics Society journal》 |2018年第8期|835-841|共7页
作者
Erdil Emre; Topalli Kagan; Civi Ozlem Aydin;
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作者单位

Middle East Tech Univ, Dept Elect & Elect Engn, Ankara, Turkey;

TUBITAK Space Technol Res Inst, Microwave & Antenna Syst Grp, Ankara, Turkey;

Middle East Tech Univ, Dept Elect & Elect Engn, Ankara, Turkey;

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正文语种 eng
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关键词
CSRR; element rotation method; SRR; transmitarray;

机译：CSRR;元素旋转方法;SRR;发送数组;

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1. Reconfigurable Nested Ring-Split Ring Transmitarray Unit Cell Employing the Element Rotation Method by Microfluidics [J] . Erdil Emre, Topalli Kagan, Esmaeilzad Nasim S., Antennas and Propagation, IEEE Transactions on . 2015,第3期

机译：采用微流控技术的单元旋转法可重构的嵌套环-分裂环发射阵列单位细胞
2. Electronically Reconfigurable 6 × 6 Element Transmitarray at K-Band Based on Unit Cells With Continuous Phase Range [J] . Frank Martin, Lurz Fabian, Weigel Robert, IEEE Antennas and Wireless Propagation Letters . 2019,第4期

机译：基于具有连续相位范围的晶胞在K波段电子可重构6×6元素发射阵列
3. Electronically Reconfigurable 6 × 6 Element Transmitarray at K-Band Based on Unit Cells With Continuous Phase Range [J] . Frank Martin, Lurz Fabian, Weigel Robert, IEEE Antennas and Wireless Propagation Letters . 2019,第4期

机译：基于具有连续相位范围的单元电池，在K波段处以电子可重新配置的6×6元件传输阵列
4. Transmission line metamaterials based on pairs of coupled split ring resonators (SRRs) and complementary split ring resonators (CSRR): A comparison to the light of the lumped element equivalent circuits [C] . Lijuan Su, Naqui Jordi, Mata-Contreras Javier, International Conference on Electromagnetics in Advanced Applications . 2015

机译：基于对耦合分流环谐振器（SRRS）和互补分体环谐振器（CSRR）的传输线超材料：与集总元件等效电路的光相比
5. A boundary element method for eddy current problems having rotational symmetry. [D] . Ahmed, Mahmoud Ramadan. 1987

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6. Myeloma mutant with a novel 3 flanking region: loss of normal sequence and insertion of repetitive elements leads to decreased transcription but normal processing of the alpha heavy-chain gene products. [O] . P D Gregor, S L Morrison 1986

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7. Reconfigurable nested ring-split ring transmitarray unit cell employing the element rotation method by microfluidics [O] . Erdil, E., Topalli, K., Esmaeilzad, N.S., 2015

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8. MICROWAVE FILTERS PART I:THE EFFECT OF SMALL LOSS IN THE COUPLING IRISES ON THE Q OF A SHUNT-COUPLED CAVITY PART II:NARROW PASS BAND, LOW INSERTION LOSS FILTERS EMPLOYING RESONANT OBSTACLE COUPLING ELEMENTS [R] . ROSALIND OPPENHEIM 1957

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Effect of Symmetry on Insertion Loss in SRR and CSRR Transmitarray Unit Cells Implementing the Element Rotation Method

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