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Defining Electric Field with X or Y polarization in 2-D axisymmetric case in RF (wave Optics) module

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Hi

I was using the 2-D axisymmetric electromagnetic module to simulate a 3-D case. I can see that all fields are defined as Er, Ephi, Ez in this axisymmetric case in both "port" and "electric field". I want to define a wave with y polarization or x polarization. How can I do that? Also, clearly I can not express my desired x or y polarization base on R and Phi components since it involves sin(phi) and cos(phi) which are not recognizable by this module.

Thanks in advance



1 Reply Last Post 15.11.2018, 10:48 GMT-5
Robert Koslover Certified Consultant

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Posted: 6 years ago 15.11.2018, 10:48 GMT-5

First of all, it sounds to me like you might be better off using a different representation (such as 3D). The 2-D axisymmetric model presupposes that your problem has 2-D axisymmetry; a plane wave does not directly exhibit that symmetry. That said, there can be extensions employed that, in some cases, will still allow you to do limited work in the 2-D axi-sym mode while using field distributions that do not exhibit that symmetry! But you will have to be very careful to do the math properly. For a very good example of how this can be accomplished, see the "conical horn lens antennna" in the Comsol-supplied application library, for the RF module.

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Scientific Applications & Research Associates (SARA) Inc.
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First of all, it sounds to me like you might be better off using a different representation (such as 3D). The 2-D axisymmetric model presupposes that your problem has 2-D axisymmetry; a plane wave does not directly exhibit that symmetry. That said, there can be extensions employed that, in some cases, will still allow you to do limited work in the 2-D axi-sym mode while using field distributions that do not exhibit that symmetry! But you will have to be very careful to do the math properly. For a very good example of how this can be accomplished, see the "conical horn lens antennna" in the Comsol-supplied application library, for the RF module.

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