Entropy-Inspired Aperture Optimization in Fourier Optics
Marcos Miotti, Daniel Varela Magalhães

TL;DR
This paper introduces a new method to optimize image quality in optical systems by using entropy to find the best aperture setting.
Contribution
A novel analytical technique using entropy to determine optimal apertures in 4f imaging systems is proposed.
Findings
Optimal aperture region maximizes imaging entropy for static and quasi-static objects.
The method is robust and applicable to various optical imaging devices.
Imaging entropy reflects imperfections in the object being imaged.
Abstract
The trade-off between resolution and contrast is a transcendental problem in optical imaging, spanning from artistic photography to technoscientific applications. To the latter, Fourier-optics-based filters, such as the 4f system, are well-known for their image-enhancement properties, removing high spatial frequencies from an optically Fourier-transformed light signal through simple aperture adjustment. Nonetheless, assessing the contrast–resolution balance in optical imaging remains a challenging task, often requiring complex mathematical treatment and controlled laboratory conditions to match theoretical predictions. With that in mind, we propose a simple yet robust analytical technique to determine the optimal aperture in a 4f imaging system for static and quasi-static objects. Our technique employs the mathematical formalism of the H-theorem, enabling us to directly access the…
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Taxonomy
TopicsOptical Polarization and Ellipsometry · Adaptive optics and wavefront sensing · Orbital Angular Momentum in Optics
