How to solve the electromagnetic field around a rectangular dielectric waveguide analytically?
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So, Thé ÃnSwer is --) If I have an electric dipole placed outside of a rectangular dielectric waveguide, how can I solve the boundary condition problem to find the reflected and transmitted fields due to the presence of the waveguide?
It is well-known that one can find separate variables of the electromagnetic field/mode for a rectangular conductor waveguide, but I haven't found a way to apply similar separation of variables strategy to solve the fields around a dielectric waveguide with the same shape. There are approximated methods to ignore the field components at the corners of the waveguide. Is there any better way to just find the total reflected field outside of a rectangular/square waveguide? Thanks!
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Here is your answer ❤
So, Thé ÃnSwer is --) If I have an electric dipole placed outside of a rectangular dielectric waveguide, how can I solve the boundary condition problem to find the reflected and transmitted fields due to the presence of the waveguide?
It is well-known that one can find separate variables of the electromagnetic field/mode for a rectangular conductor waveguide, but I haven't found a way to apply similar separation of variables strategy to solve the fields around a dielectric waveguide with the same shape. There are approximated methods to ignore the field components at the corners of the waveguide. Is there any better way to just find the total reflected field outside of a rectangular/square waveguide? Thanks!
#I hope It's help! Follow me
Marks me as Brilliant
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Hey mate ^_^
This is a very difficult analytical problem and it cannot be solved by separation of variables.
The subject of dielectric rod antennas (these are really waveguides of rectangular or circular cross section) as well as the modes they propagate in particular have a vast literature.
I suggest that you look into the IEEE Transactions on Antennas and Propagation under the heading "dielectric rod antennas".
#Be Brainly❤️
This is a very difficult analytical problem and it cannot be solved by separation of variables.
The subject of dielectric rod antennas (these are really waveguides of rectangular or circular cross section) as well as the modes they propagate in particular have a vast literature.
I suggest that you look into the IEEE Transactions on Antennas and Propagation under the heading "dielectric rod antennas".
#Be Brainly❤️
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