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Why are fft diagrams mirrored?

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Dhyan Hariprasad
Dhyan Hariprasad le 2 Mai 2017
Modifié(e) : John Buggeln le 19 Mar 2022
Why are the fft plot mirrored?

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Michelangelo Ricciulli
Michelangelo Ricciulli le 2 Mai 2017
Hi Dhyan, actually, it is not always the case, since it is true only for real signals. It can be proven mathematically that when you apply the FFT on a real signal (without imaginary elements) the abs() of FFT is perfectly symmetric. If you instead try to make the same thing on a signal that contains an imaginary elements, you will lose this symmetry.
If you're interested, here you can find more details.
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Michelangelo Ricciulli
Michelangelo Ricciulli le 25 Mai 2017
Thank you very much, Stephen.
John Buggeln
John Buggeln le 19 Mar 2022
Modifié(e) : John Buggeln le 19 Mar 2022
Another way of thinking about it, (for real frequencies) is that after you reach the Nyquist limit (k = N/2) of the fourier transform matrix (which is filled with your component frequencies, indexed by k), your frequencies start to 'alias' to negative frequencies that are equivalent to the positive frequencies in magnitude. At the edges this is the easiest to see. The k =1 frequency will take you around the unit circle at a certain angular speed, and k= N-1 looks like k = 1, but in the negative direction. If you draw out the unit circle, and how far each waveform will 'travel around' in the each unit of time, this will make sense. Likewise, these pairings exist symmetrically around the nyquist limit as you approach it from the positive and negative direction. Therefore, you will have equal component frequencies, i.e. the 'mirroring' around that nyquist limit, N/2!

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