![]() ![]() For a super-Gaussian, it can be described by the equation Where G is the Apodization Factor and rho is the normalized pupil coordinate. Rather, the Apodization Factor will change the distribution of rays in the pupil with the following equation, For one, I don't think the Gaussian Apodization Factor will produce the same distribution as a super-Gaussian. I just wanted to chime in here to add a bit more information. Hi all! Thanks for the question here Matt, and thanks also, David, for providing some feedback!
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