等离子体共振下微带结构面内阻抗和特性阻抗的计算

2022 IEEE International Conference of Electron Devices Society Kolkata Chapter (EDKCON) Pub Date : 2022-11-26 DOI:10.1109/EDKCON56221.2022.10032900

P. Debnath, Ujjwal Mondal, A. Deyasi

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引用次数: 0

摘要

解析计算了由于表面等离激元极化子形成而引起的电子表面振荡的平面微带结构的面内阻抗和特性阻抗。在实际设计中，尺寸参数范围保持在毫米范围内，并根据传播矢量变化的知识计算X波段的阻抗。法拉第电感和动态电感分别计算面内阻抗，其中带状线的特定材料的表皮深度被考虑在内。模拟工作考虑了具有标准电子密度范围的真实材料。极低的特性阻抗和中等的面内阻抗显示了微带结构沿传播平面持续的等离子体共振。

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Computation of In-Plane and Characteristic Impedance of Microstrip Structure under Plasmonic Resonance

In-plane impedance and characteristic impedance of planar microstrip structure is analytically computed for the surface oscillation of electrons owing to formation of surface plasmon polariton. Dimensional parametric ranges are kept in millimeter range for practical design and impedance is computed upto X band from the knowledge of propagation vector variation. Both Faraday inductance and kinetic inductance are separately computed for calculating in-plane impedance, where skin depth for that particular material of the stripline is considered. Realistic materials with standard range of electron density are considered for simulation work. Very low magnitude of characteristic impedance and moderate value of im-plane impedance together reveal sustainable plasmonic resonance for the microstrip structure along the plane of propagation.

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2022 IEEE International Conference of Electron Devices Society Kolkata Chapter (EDKCON)

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