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Digital defocus aberration interference for automated optical microscopy

Optics 2026-02-23 v2

Abstract

Automation in optical microscopy is critical for enabling high-throughput imaging across a wide range of biomedical applications. Among the essential components of automated systems, robust autofocusing plays a pivotal role in maintaining image quality for both single-plane and volumetric imaging. However, conventional autofocusing methods often struggle with implementation complexity, limited generalizability across sample types, incompatibility with thick specimens, and slow feedback. We observed that the digitally summed Fourier spectrum of two images acquired from two-angle illumination exhibits interference-like fringe modulation when the sample is defocused. These digital fringes correlate directly with defocus through a physics-based relation. Based on this principle, we developed an automatic, efficient, and generalizable defocus detection method termed digital defocus aberration interference (DAbI). Implemented with a simple two-LED setup, DAbI can quantify the defocus distance over a range of 443 times the depth-of-field (DoF) for thin samples and 296 times for thick specimens. It can additionally extend the natural DoF of the imaging system by 20 folds when integrated with complex-field imaging. We demonstrated the versatile applications of DAbI on brightfield, complex-field, refractive index, confocal, and widefield fluorescence imaging, establishing it as a promising solution for automated, high-throughput optical microscopy.

Keywords

Cite

@article{arxiv.2507.10867,
  title  = {Digital defocus aberration interference for automated optical microscopy},
  author = {Haowen Zhou and Shi Zhao and Yujie Fan and Zhenyu Dong and Oumeng Zhang and Viviana Gradinaru and Changhuei Yang},
  journal= {arXiv preprint arXiv:2507.10867},
  year   = {2026}
}
R2 v1 2026-07-01T04:01:25.229Z