Hello dear stackoverflow users!
My signal is a static 1D pattern detected by the linear photodiode array with N pixels and pitch p.
What units will I get along the Xaxis after FFT to spectrum?
Sincerly...
Hello dear stackoverflow users! My signal is a static 1D pattern detected by the linear photodiode array with N pixels and pitch p. What units will I get along the Xaxis after FFT to spectrum? Sincerly... 


If you have a signal f(x) with unit U depending on variable x with unit V. Then
So the units of the XAxis of a FFT are 1 (because it is a counter). I included the continuous Fourier transform, because I suspect that you just confused the FFT (which is just the name of an algorithm for the discrete Fourier transform by the way) with the ordinary (continuous) Fourier transform. 


Let me clarify my above question because of the shortage of initial meaningful data. The question was related with inverse FT of a spatial interferogram (a.k.a. fringe pattern) formed from the optical radiation by a static Fouriertransform spectrometer and detected with a linear photo diode array to reconstruct finally the optical spectrum. Therefore, the mathematically formal answer "So the units of the XAxis of a FFT are 1 (because it is a counter)" is absolutely right. 

