Can conjugate images be used in place of dark field filters?

AI Thread Summary
Substituting a black spot in the center of a dark field filter with a completely black filter featuring a light-passing hole will not yield the same imaging effects, as the annulus in dark field imaging is crucial for passing high spatial frequencies. The hole only allows the DC component, which does not replicate the function of the annulus. Conjugate images are related to Fourier transforms, but they are not simply inverted forms; their relationship involves deeper mathematical principles. The discussion also touches on phase contrast imaging and matched filters, indicating a broader context of imaging techniques. Understanding these concepts is essential for effective application in microscopy and imaging technology.
Ruddiger28
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I was working on some dark field filters and I was wondering if you could substitute the black spot in the centre of a dark field filter for a completely black filter with a light passing hole in the middle. Sort of an inverted dark field filter.
I seem to remember reading something like this involving conjugate images when I was doing Fourier theory a while ago.
Would the filters have the same effect? Or are conjugate images Fourier transforms of each other?
 
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In a darkfield imaging setup, you cannot substitute a small hole for an annulus; the annulus passes high spatial frequencies while the hole passes the DC component. Offsetting the hole to the radius of the annulus can be acceptable, however (google: synthetic aperture radar).
 
Thank you for replying, I was afraid that was the case. So on the conjugate images point, are the two filters in this case Fourier transforms of each other? Why are they called conjugate images? Is the link between the two simply that they appear as inverted forms of each other or is there something deeper?
 
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