介质棒支撑的各向异性导电矩形螺旋慢波结构分析

2019 6th International Conference on Signal Processing and Integrated Networks (SPIN) Pub Date : 2019-03-01 DOI:10.1109/SPIN.2019.8711721

Snehitha Kodali, Shreya Mohta, Tejas Munees, Naveen G. Babu

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引用次数: 2

摘要

推导了平面行波管介质负载各向异性导电带螺旋慢波结构的色散方程。通过假设矩形带螺旋上的电流密度行为，通过精确的边界条件得到色散关系，该边界条件只将场限制在带表面而不限制在间隙区域。将场方程代入边界条件，得到了场方程的六个复常数。在由约束函数或指示函数组成的最后一个边界条件中重新代入复常数，得到色散方程。导出的色散方程可用于更实际相关的平面行波管相互作用结构的色散特性。

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Analysis of Dielectric Rods Supported Anistropically Conducting Rectangular Helix Slow Wave Structure

The dispersion equation of a dielectric loaded anisotropically conducting tape helix slow wave structure for planar TWTs is derived. By assuming the current density behavior on the rectangular tape helix, the dispersion relation is obtained through accurate boundary conditions that restrict the field only on the tape surface and not in the gap regions. Substitution of the field equations in the boundary conditions results in the six complex constants of the field equations. The complex constants are re-substituted in the last boundary condition that consists of the restricting function or the indicator function to arrive at the dispersion equation. The derived dispersion equation can be used to obtain the dispersion characteristics for a more practically relevant planar TWT interaction structure.

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2019 6th International Conference on Signal Processing and Integrated Networks (SPIN)

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