Sergei Yushanov
Certified Consultant
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Posted:
1 decade ago
25.02.2013, 08:22 GMT-5
Gustavo,
Surface impedance is directly related to skin depth and is defined as
Zs=Rs*(1+j)
where Rs=1/(sigma*delta) is surface resistance, sigma is electric conductivity, and delta is skin depth.
Skin depth is predefined variable available for post-processing: delta=emw.deltaS.
So, to plot real part of surface impedance, type in the following expression:
real((1+j)/(emw.sigmaxx* emw.deltaS))
and to plot imaginary part of surface impedance, type
imag((1+j)/(emw.sigmaxx* emw.deltaS))
Regards,
Sergei
Gustavo,
Surface impedance is directly related to skin depth and is defined as
Zs=Rs*(1+j)
where Rs=1/(sigma*delta) is surface resistance, sigma is electric conductivity, and delta is skin depth.
Skin depth is predefined variable available for post-processing: delta=emw.deltaS.
So, to plot real part of surface impedance, type in the following expression:
real((1+j)/(emw.sigmaxx* emw.deltaS))
and to plot imaginary part of surface impedance, type
imag((1+j)/(emw.sigmaxx* emw.deltaS))
Regards,
Sergei
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Posted:
1 decade ago
25.02.2013, 14:09 GMT-5
Thanks for the reply, but where do I put this equation? It's a global variation, or I have to define a point or line of make a surface integral?
My problem is a 2d grafene plate, but the simulation is in a 3d enviroment. So I have to make a superficial integral on the plate or anything like that?
Gustavo
Thanks for the reply, but where do I put this equation? It's a global variation, or I have to define a point or line of make a surface integral?
My problem is a 2d grafene plate, but the simulation is in a 3d enviroment. So I have to make a superficial integral on the plate or anything like that?
Gustavo
Sergei Yushanov
Certified Consultant
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
26.02.2013, 08:09 GMT-5
Gustavo,
It is not clear from your description what you are planning to do with surface impedance in your simulation. Definitely, you can plot it for visualization purposes, as you mentioned in your original question, but it is hard to imagine why you would need integration.
Surface impedance is material parameter characterizing its response at the specified frequency. Generally, more informative characteristic is skin depth. Skin depth allows you to estimate necessary mesh refinement level near the surface of the conductor or can suggest you to replace sheet of the conductor by Transition Boundary Condition. This boundary condition will represent discontinuity of the tangential electric field across the interior boundary and Comsol internally calculates surface impedance based on the material conductivity and sheet thickness.
Regards,
Sergei
Gustavo,
It is not clear from your description what you are planning to do with surface impedance in your simulation. Definitely, you can plot it for visualization purposes, as you mentioned in your original question, but it is hard to imagine why you would need integration.
Surface impedance is material parameter characterizing its response at the specified frequency. Generally, more informative characteristic is skin depth. Skin depth allows you to estimate necessary mesh refinement level near the surface of the conductor or can suggest you to replace sheet of the conductor by Transition Boundary Condition. This boundary condition will represent discontinuity of the tangential electric field across the interior boundary and Comsol internally calculates surface impedance based on the material conductivity and sheet thickness.
Regards,
Sergei
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Posted:
8 years ago
03.11.2016, 08:41 GMT-4
Hi Sergei Yushanov,
My name is Yoon, I am working on an antenna modeling. I want to evaluate the Skin depth of an electromagnetic field in a medium (soil, concrete...) Going through you reply I found very educative and interesting. according to the expression to evaluate the real part of the surface resistance. I tried the expression by it gives an error comment. since the surface resistance is related to the skin depth, I can used the value of the surface resistance to evaluate the skin depth.
Thanks as I will be happy to receive your reply soonest.
Hi Sergei Yushanov,
My name is Yoon, I am working on an antenna modeling. I want to evaluate the Skin depth of an electromagnetic field in a medium (soil, concrete...) Going through you reply I found very educative and interesting. according to the expression to evaluate the real part of the surface resistance. I tried the expression by it gives an error comment. since the surface resistance is related to the skin depth, I can used the value of the surface resistance to evaluate the skin depth.
Thanks as I will be happy to receive your reply soonest.