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First - I need to plot this radially averaged spectrum 1-D, against the wavenumber |k|. But early I calculate the |k| using two matrix, so I have a matrix that represent |k|. So I have to radial average this matrix too?

Second - If I remove a mean value from my data before using the FFT2 function, I expected to see only a difference in the amplitude of the values, but actually I am noting a difference in the shape of the radially averaged spectrum.

I am trying to use this to analyse magnetic field data. Thanks for any help!!

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You might want to post this in the physics (or math?) stackexchange site. I am not exactly sure about the first point, but a little more info might help, for instance is |k| not only a function of the radius? –  Try Hard Aug 5 '13 at 15:53
    
A more general question is: what kind of symmetry are you expecting (or observe) in your image? Is the operation that gives you |k| generating a matrix with that same symmetry? –  Try Hard Aug 5 '13 at 16:00

1 Answer 1

The explanation for your second question follows from the additive property of the FFT:

FFT(c) = FFT(a+b) = FFT(a) + FFT(b)

If b is an offset - namely the mean value - which you remove from signal c, then the spectrum of c-b will equal your original spectrum minus the spectrum of a constant, b, but the FFT of a constant results in sinc wiggles! So by removing the mean value of the signal you are removing a sinc glitch at zero frequency.

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