I am trying to get a square wave of width 83.66. Seeing as I am using for a deconvolution, I want it to be exact. Here is what I have so far:
width = 83.66; x = linspace(-400,400,10000); a2 = 1.205e+004 ; al = 1.778e+005 ; b1 = 94.88 ; c1 = 224.3 ; d = 4.077 ; measured = al*exp(-((abs((x-b1)./c1).^d)))+a2; p = 33*sinc( (x)/(2*width) ); slit = abs(fftshift(ifft(p)));
I have a measured fit to my data and want to deconvolve it with my slit of width 83.66. I tried to build the fourier transform of this and then use
ifft() but that just gives me a delta function. It may be a peak with little squiggles at the top, but I do not see it when I zoom in. Plus, my slit should be ~84 wide.
Any ideas on how I can get an accurate representation of the slit. My other idea was something such as:
slit = zeros(length(x)) slit(1:1+width) = 1