isle
Newbie level 1
Hi.
I would like to simulate plane wave scattering by dielectic sylinders.
And would like to verify a phase difference of current distribution versus the thickness of dielectric.
I tried as follows...but it is highly unlikely to be correct(For some reason, evaluated values of current distribution varies everytime I execute the simulation. And It also varies when I change the size of rectangular loop→Considering elecro-magnetic theory, I can't understand this situation.)
I have no idea how to get correct solutions or correct approaches to this problem.
Does anyone know the correct approaches to this problem?
Thank you in advance.
Firstly, I defined plane wave excitation as follows(plane wave is propagating to -x direction, and the center of model is located at(0,0,0))
([HFSS]→[Excitations]→[Assign]→[Incident Wave]→[Plane Wave]
Cartesian, Excitation location (0,0,0), E_vector(0,0,1), k_vector(-1,0,0),Regular Propagating)
Secondly, I opened Fields Calculator and calculated the values of current distribution.
(
1. Loaded H using the Quantity command.
2. Took the real part of H using the Real command.
3. Loaded the rectangular loop using the Geometry command.
4. Clicked Tangent to get the component of H along the line.
5. Took the integral around the loop using the integral command.
6. Clicked Eval to evaluate the integral. Then, the real part of I appeared.
7. Repeated this process using the imaginary part of H.
)
I would like to simulate plane wave scattering by dielectic sylinders.
And would like to verify a phase difference of current distribution versus the thickness of dielectric.
I tried as follows...but it is highly unlikely to be correct(For some reason, evaluated values of current distribution varies everytime I execute the simulation. And It also varies when I change the size of rectangular loop→Considering elecro-magnetic theory, I can't understand this situation.)
I have no idea how to get correct solutions or correct approaches to this problem.
Does anyone know the correct approaches to this problem?
Thank you in advance.
Firstly, I defined plane wave excitation as follows(plane wave is propagating to -x direction, and the center of model is located at(0,0,0))
([HFSS]→[Excitations]→[Assign]→[Incident Wave]→[Plane Wave]
Cartesian, Excitation location (0,0,0), E_vector(0,0,1), k_vector(-1,0,0),Regular Propagating)
Secondly, I opened Fields Calculator and calculated the values of current distribution.
(
1. Loaded H using the Quantity command.
2. Took the real part of H using the Real command.
3. Loaded the rectangular loop using the Geometry command.
4. Clicked Tangent to get the component of H along the line.
5. Took the integral around the loop using the integral command.
6. Clicked Eval to evaluate the integral. Then, the real part of I appeared.
7. Repeated this process using the imaginary part of H.
)
