Advanced Photonics, Volume. 7, Issue 2, (2025)

Single-shot volumetric fluorescence imaging with neural fields [Early Posting]

Zhang Oumeng, Zhou Haowen, Feng Brandon, Larsson Elin, Alcalde Reinaldo, Yin Siyuan, Deng Catherine, Yang Changhuei
Author Affiliations
  • California Institute of Technology
  • Massachusetts Institute of Technology
  • show less

    Single-shot volumetric fluorescence (SVF) imaging offers a significant advantage over traditional imaging methods that require scanning across multiple axial planes as it can capture biological processes with high temporal resolution. The key challenges in SVF imaging include requiring sparsity constraints, eliminating depth ambiguity in the reconstruction, and maintaining high resolution across a large field of view. In this paper, we introduce the QuadraPol point spread function (PSF) combined with neural fields, a novel approach for SVF imaging. This method utilizes a custom polarizer at the back focal plane and a polarization camera to detect fluorescence, effectively encoding the 3D scene within a compact PSF without depth ambiguity. Additionally, we propose a reconstruction algorithm based on the neural fields technique that provides improved reconstruction quality compared to classical deconvolution methods. QuadraPol PSF, combined with neural fields, significantly reduces the acquisition time of a conventional fluorescence microscope by approximately 20 times and captures a 100 mm3 cubic volume in one shot. We validate the effectiveness of both our hardware and algorithm through all-in-focus imaging of bacterial colonies on sand surfaces and visualization of plant root morphology. Our approach offers a powerful tool for advancing biological research and ecological studies.

    Paper Information

    Manuscript Accepted: Sep. 26, 2024

    Posted: Jan. 24, 2025

    DOI: AP