Hello Shakeeb Bin Hasan
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Posted:
1 decade ago
17.01.2011, 08:30 GMT-5
Hi, I have exactly the same problem as you had. Did you find a solution already?
Hi, I have exactly the same problem as you had. Did you find a solution already?
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Posted:
1 decade ago
20.01.2011, 05:03 GMT-5
Yes, I think I did. What specifically you want to know and which version?
Yes, I think I did. What specifically you want to know and which version?
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Posted:
1 decade ago
20.01.2011, 05:26 GMT-5
Does the cross section of your waveguide include different subdomain with different material?
I would like to know how to do it respectively in version 4.0 and version 3.5a.
Did you do it similar to an example of "waveguide adapter" the model library by using a combined "Boundary model analysis " and "transient electromagnetic waves"?
I had a problem to define the boundary condition to be the eigenmode of mode solver.
I guess there are some other way to do it without combined module. Just extract the field of the eigenmode from the mode analysis using Matlab and import it to the transient module. I never try myself in this way. Did you also do it like this?
Does the cross section of your waveguide include different subdomain with different material?
I would like to know how to do it respectively in version 4.0 and version 3.5a.
Did you do it similar to an example of "waveguide adapter" the model library by using a combined "Boundary model analysis " and "transient electromagnetic waves"?
I had a problem to define the boundary condition to be the eigenmode of mode solver.
I guess there are some other way to do it without combined module. Just extract the field of the eigenmode from the mode analysis using Matlab and import it to the transient module. I never try myself in this way. Did you also do it like this?
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Posted:
1 decade ago
21.01.2011, 10:35 GMT-5
Well, waveguide adapter model mode is not sufficient in transient analysis in which you have to define the field variables manually. But the beginning steps are the same, first mode analysis, then set manual value of propagation constant, and finally store solution in solver manager.
Now incorporating this result finally in the transient analysis module can be done rather easily by selecting scattering boundary condition. Doing mode analysis on the same boundary for the sake of simplicity, just write
Ex: real(tEx_rfwb*exp(i*w0*t))
Ey: real(tEy_rfwb*exp(i*w0*t))
Ez: real(En_rfwb*exp(i*w0*t))
Note that for above statements to be exact, x-y plane must be parallel to your boundary/waveguide cross-section. Then the z-component would be field component normal to the boundary as I have written. Also make sure that frequency w0 is defined already.
And I don't think it would be so straightforward to export solution from Matlab back to Comsol
Well, waveguide adapter model mode is not sufficient in transient analysis in which you have to define the field variables manually. But the beginning steps are the same, first mode analysis, then set manual value of propagation constant, and finally store solution in solver manager.
Now incorporating this result finally in the transient analysis module can be done rather easily by selecting scattering boundary condition. Doing mode analysis on the same boundary for the sake of simplicity, just write
Ex: real(tEx_rfwb*exp(i*w0*t))
Ey: real(tEy_rfwb*exp(i*w0*t))
Ez: real(En_rfwb*exp(i*w0*t))
Note that for above statements to be exact, x-y plane must be parallel to your boundary/waveguide cross-section. Then the z-component would be field component normal to the boundary as I have written. Also make sure that frequency w0 is defined already.
And I don't think it would be so straightforward to export solution from Matlab back to Comsol
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Posted:
1 decade ago
16.10.2011, 15:32 GMT-4
Hi,
I am usning COMSOL 4.0.I want to model electromagnetic waves model in 3D for heating purpose and see the effect on fluid.I can build the model by defining an Edge Current but I am not getting the temperature as a result instead I am getting the E-field distribution.
In addition, I want to define Port in the model (with Power Input and Electric field with propagation constant) instead of Edge Current (with current). I tried to define it but it gave me error, can you please help me out?
Many thanks in advance.
Hi,
I am usning COMSOL 4.0.I want to model electromagnetic waves model in 3D for heating purpose and see the effect on fluid.I can build the model by defining an Edge Current but I am not getting the temperature as a result instead I am getting the E-field distribution.
In addition, I want to define Port in the model (with Power Input and Electric field with propagation constant) instead of Edge Current (with current). I tried to define it but it gave me error, can you please help me out?
Many thanks in advance.
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Posted:
1 decade ago
06.06.2013, 08:26 GMT-4
Hi,
I have the same problem. I want to simulate a rib waveguide (as in the attached file) for a 3D model. The rib is a single TM mode with a neff=3.538. If I try to simulate the same structure in 3D model I can see higher order modes at least for a propagation of 50microns. I think that it depends on the imput field chosen for the structure. I consider a boundary scattering condition at the imput port with a plane wave with E0y = 1V/m. It needs more than 50microns to propagate only the first mode. I can't consider longer waveguides because the limited memory of my computer.
I want to use the modal distribution of the first TM mode obtained by 2D model as the imput of the 3D model. Is it possible? I'm using a version of Comsol 3.5 RF module.
I hope someone could help me.
Thanks!
Hi,
I have the same problem. I want to simulate a rib waveguide (as in the attached file) for a 3D model. The rib is a single TM mode with a neff=3.538. If I try to simulate the same structure in 3D model I can see higher order modes at least for a propagation of 50microns. I think that it depends on the imput field chosen for the structure. I consider a boundary scattering condition at the imput port with a plane wave with E0y = 1V/m. It needs more than 50microns to propagate only the first mode. I can't consider longer waveguides because the limited memory of my computer.
I want to use the modal distribution of the first TM mode obtained by 2D model as the imput of the 3D model. Is it possible? I'm using a version of Comsol 3.5 RF module.
I hope someone could help me.
Thanks!