Fourier transform of a compicated function

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SUMMARY

The discussion focuses on calculating the Fourier transform of the function defined as rect(x/d)exp(2πia|x|). The rectangle function, rect(x/d), is defined as 1 for -d/2 < x < d/2 and 0 otherwise. Participants suggest using the convolution theorem, which states that the Fourier transform of the product of two functions is the convolution of their individual transforms. The analytical solution involves finding the Fourier transforms of both the rectangle and exponential functions separately and then convolving the results.

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Hi

Could someone help me to calculate the Fourier transform of the following function:

rect(x/d)exp(2ipia|x|)
 
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What is rect(x/d)?
 
rect(x/d) is a rectangle function.
rect(x/d)=1 if -d/2<x<d/2;
rect(x/d)=0 if x<-d/2 or x>d/2.
 
It looks like a straightforward integration.
∫(x=-d/2,0)exp(-2πiax+itx) dx + ∫(x=0,d/2)exp(2πiax+itx) dx
 
Instead of numerical solution, is there an analytical solution for this problem?
 
That's not a numerical solution.

You could try using the convolution theorem to find the Fourier transform, but that seems like even more work.
 
Can you please give me the solution using the convolution theorem?
 
No, that's against the forum rules. Conceptually, it's straightforward. The convolution theorem tells you

\mathcal{F}[f(x)g(x)]=\mathcal{F}[f(x)]*\mathcal{F}[g(x)]

so you just have to find the transforms of the rectangle and exponential functions individually and convolve the results.
 

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