Near-field Fourier ptychography: super-resolution phase retrieval via speckle illumination
He Zhang, Shaowei Jiang, Jun Liao, Junjing Deng, Jian Liu, Yongbing, Zhang, and Guoan Zheng

TL;DR
This paper introduces near-field Fourier ptychography, a super-resolution imaging technique that uses speckle illumination and phase retrieval to surpass traditional optical resolution limits in microscopic and macroscopic systems.
Contribution
It presents a novel imaging modality that leverages speckle patterns and ptychographic phase retrieval to achieve high resolution without requiring high-NA lenses.
Findings
Achieved ~7-fold resolution enhancement in macro imaging.
Reconstructed high-NA images using low-NA optics and speckle illumination.
Applicable to light, X-ray, and electron imaging systems.
Abstract
Achieving high spatial resolution is the goal of many imaging systems. Designing a high-resolution lens with diffraction-limited performance over a large field of view remains a difficult task in imaging system design. On the other hand, creating a complex speckle pattern with wavelength-limited spatial features is effortless and can be implemented via a simple random diffuser. With this observation and inspired by the concept of near-field ptychography, we report a new imaging modality, termed near-field Fourier ptychography, for tackling high-resolution imaging challenges in both microscopic and macroscopic imaging settings. The meaning of 'near-field' is referred to placing the object at a short defocus distance with a large Fresnel number. In our implementations, we project a speckle pattern with fine spatial features on the object instead of directly resolving the spatial features…
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