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Infinite Domain (Half-Space) and Anisotropic Conductive Sheet (Electromagnetic Frequency Domain)

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Hi,

I am trying to study a scenario of infinite domain half-space that is separated by infinite anisotropic conductive sheet. The excitation is coming from a dipole. My problem is in defining the anisotropic conductive sheet. Can you suggest what is the best method for implmenting this?

A picture is available in this link image

Thanks


3 Replies Last Post 29.01.2019, 05:30 GMT-5
Robert Koslover Certified Consultant

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Posted: 6 years ago 21.01.2019, 13:56 GMT-5

I'm trying to understand the image you posted. It seems that your anisotropic conductive sheet is in the XY plane, but that you want it to be conductive in (only?) the Z direction. Is that what you meant? Or might you actually be interested in modeling something like a polarizing material that is conducting (for example) in only the X direction? You mentioned including a dipole excitation. What is the orientation of your dipole?

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I'm trying to understand the image you posted. It seems that your anisotropic conductive sheet is in the XY plane, but that you want it to be conductive in (only?) the Z direction. Is that what you meant? Or might you actually be interested in modeling something like a polarizing material that is conducting (for example) in only the X direction? You mentioned including a dipole excitation. What is the orientation of your dipole?

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Posted: 6 years ago 29.01.2019, 05:21 GMT-5

Dear Robert,

The conductive sheet is in the x-y plane. The dipole excitation is z-directed and placed above the sheet. The media above and below the sheet are free-space. The structure extends to infinity in all directions. I am having difficutly in modeling the anisotropic sheet electrical conductivity which is described as a complex tensor. I intend to use frequency domain solution at a single frequnecy.

Thanks

Dear Robert, The conductive sheet is in the x-y plane. The dipole excitation is z-directed and placed above the sheet. The media above and below the sheet are free-space. The structure extends to infinity in all directions. I am having difficutly in modeling the anisotropic sheet electrical conductivity which is described as a complex tensor. I intend to use frequency domain solution at a single frequnecy. Thanks

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Posted: 6 years ago 29.01.2019, 05:30 GMT-5

I am attaching a sample file for my trial

I am attaching a sample file for my trial

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