English

All-optical Fourier neural network using partially coherent light

Optics 2025-07-15 v3

Abstract

Optical neural networks present distinct advantages over traditional electrical counterparts, such as accelerated data processing and reduced energy consumption. While coherent light is conventionally employed in optical neural networks, our study proposes harnessing spatially incoherent light in all-optical Fourier neural networks. Contrary to numerical predictions of declining target recognition accuracy with increased incoherence, our experimental results demonstrate a surprising outcome: improved accuracy with incoherent light. We attribute this unexpected enhancement to spatially incoherent light's ability to alleviate experimental errors like diffraction rings, laser speckle, and edge effects. Our controlled experiments introduced spatial incoherence by passing monochromatic light through a spatial light modulator featuring a dynamically changing random phase array. These findings underscore partially coherent light's potential to optimize optical neural networks, delivering dependable and efficient solutions for applications demanding consistent accuracy and robustness across diverse conditions.

Keywords

Cite

@article{arxiv.2409.08070,
  title  = {All-optical Fourier neural network using partially coherent light},
  author = {Jianwei Qin and Yanbing Liu and Yan Liu and Xun Liu and Wei Li and Fangwei Ye},
  journal= {arXiv preprint arXiv:2409.08070},
  year   = {2025}
}

Comments

19 pages,5 figures

R2 v1 2026-06-28T18:42:32.788Z