Characterization of Defocused Coherent Imaging Systems with Periodic Objects

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Abstract:

Recent advancements in quantum and quantum-inspired imaging techniques have enabled high-resolution 3D imaging through photon correlations. These techniques exhibit reduced degradation of image resolution for out-of-focus samples compared to conventional methods (i.e., intensity-based incoherent imaging). A key advantage of these correlation-based approaches is their independence from the system numerical aperture (NA). Interestingly, both improved resolution of defocused images and NA-independent scaling are linked to the spatial coherence of light. This suggests that while correlation measurements exploit spatial coherence, they are not essential for achieving this imaging advantage. This discovery has led to the development of optical systems that achieve similar performance by using spatially coherent illumination and relying on intensity measurements: direct 3D imaging with NA-independent resolution was recently demonstrated in a correlation-free setup using LED light. Here, we explore the physics behind the enhanced performance of defocused coherent imaging, showing that it arises from the modification of the sample’s spatial harmonic content due to diffraction, unlike the blurring seen in conventional imaging. The results we present are crucial for understanding the implications of the physical differences between coherent and incoherent imaging, and are expected to pave the way for the practical application of the discovered phenomena.

Authors: Massaro, Gianlorenzo, and Milena D’Angelo

Publication location: Sensors

Date of publication: 26 October 2024

D.O.I: https://doi.org/10.3390/s24216885

How to cite this article: Massaro, Gianlorenzo, and Milena D’Angelo. 2024. “Characterization of Defocused Coherent Imaging Systems with Periodic Objects” Sensors 24, no. 21: 6885. https://doi.org/10.3390/s24216885

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