English

Guidestar-free image-guided wavefront-shaping

Optics 2020-07-09 v1 Computer Vision and Pattern Recognition Image and Video Processing

Abstract

Optical imaging through scattering media is a fundamental challenge in many applications. Recently, substantial breakthroughs such as imaging through biological tissues and looking around corners have been obtained by the use of wavefront-shaping approaches. However, these require an implanted guide-star for determining the wavefront correction, controlled coherent illumination, and most often raster scanning of the shaped focus. Alternative novel computational approaches that exploit speckle correlations, avoid guide-stars and wavefront control but are limited to small two-dimensional objects contained within the memory-effect correlations range. Here, we present a new concept, image-guided wavefront-shaping, allowing non-invasive, guidestar-free, widefield, incoherent imaging through highly scattering layers, without illumination control. Most importantly, the wavefront-correction is found even for objects that are larger than the memory-effect range, by blindly optimizing image-quality metrics. We demonstrate imaging of extended objects through highly-scattering layers and multi-core fibers, paving the way for non-invasive imaging in various applications, from microscopy to endoscopy.

Keywords

Cite

@article{arxiv.2007.03956,
  title  = {Guidestar-free image-guided wavefront-shaping},
  author = {Tomer Yeminy and Ori Katz},
  journal= {arXiv preprint arXiv:2007.03956},
  year   = {2020}
}
R2 v1 2026-06-23T16:56:36.575Z