English

Super-resolution microscopy via ptychographic structured modulation of a diffuser

Image and Video Processing 2019-07-26 v2 Optics

Abstract

We report a new coherent imaging technique, termed ptychographic structured modulation (PSM), for quantitative super-resolution microscopy. In this technique, we place a thin diffuser (i.e., a scattering lens) in between the sample and the objective lens to modulate the complex light waves from the object. The otherwise inaccessible high-resolution object information can thus be encoded into the captured images. We then employ a ptychographic phase retrieval process to jointly recover the exit wavefront of the complex object and the unknown diffuser profile. Unlike the illumination-based super-resolution approach, the recovered image of our approach depends upon how the complex wavefront exits the sample - not enters it. Therefore, the sample thickness becomes irrelevant during reconstruction. After recovery, we can propagate the super-resolution complex wavefront to any position along the optical axis. We validate our approach using a resolution target, a quantitative phase target, a two-layer sample, and a thick PDMS sample. We demonstrate a 4.5-fold resolution gain over the diffraction limit. We also show that a 4-fold resolution gain can be achieved with as few as ~30 images. The reported approach may provide a quantitative super-resolution strategy for coherent light, X-ray, and electron imaging.

Keywords

Cite

@article{arxiv.1904.11832,
  title  = {Super-resolution microscopy via ptychographic structured modulation of a diffuser},
  author = {Pengming Song and Shaowei Jiang and He Zhang and Zichao Bian and Chengfei Guo and Kazunori Hoshino and Guoan Zheng},
  journal= {arXiv preprint arXiv:1904.11832},
  year   = {2019}
}
R2 v1 2026-06-23T08:50:27.706Z