Transmission/Reflection Frequency Response of a Polarising Grid
Transmission/Reflection Frequency Response of a Polarising Grid
(OP)
I have been trying to find out some quantitative information on polarising grids for RF/microwave signals and despite checking over a dozen electromagnetics and physics text books I have found almost nothing.
In the early experiments of Hertz 66cm waves were passed through a polarising grid consisting of parallel 1mm wires separated by 3cm. When the grid was mis-aligned the transmitted signal was minimal. It therefore appears that when the grid spacing is 1/21 of a wavelength the transmission is minimal.
That is the most quantitative information I have found! I want to know what how the reflection and transmission coefficients to an incident plane wave vary as a function of wavelength for a given spacing between the wires. Presumably copper wires are sufficiently conductive that the loss is sufficiently small that non-transmitted waves are simply reflected.
Does anyone have any quantitative information to offer?
In the early experiments of Hertz 66cm waves were passed through a polarising grid consisting of parallel 1mm wires separated by 3cm. When the grid was mis-aligned the transmitted signal was minimal. It therefore appears that when the grid spacing is 1/21 of a wavelength the transmission is minimal.
That is the most quantitative information I have found! I want to know what how the reflection and transmission coefficients to an incident plane wave vary as a function of wavelength for a given spacing between the wires. Presumably copper wires are sufficiently conductive that the loss is sufficiently small that non-transmitted waves are simply reflected.
Does anyone have any quantitative information to offer?
RE: Transmission/Reflection Frequency Response of a Polarising Grid
RE: Transmission/Reflection Frequency Response of a Polarising Grid
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