Spectral DiffuserScope: a compact snapshot hyperspectral microscope
摘要
Hyperspectral fluorescence microscopy enables important biological and clinical applications, but conventional systems are bulky or require scanning, limiting temporal resolution and throughput. We introduce a computational snapshot hyperspectral microscope that uses compressed sensing to achieve higher spatial-spectral resolution than traditional snapshot systems. Our device is compact (~15 cm x 6 cm x 6 cm) and easily attaches to standard fluorescence microscopes. We benchmark our system against existing snapshot methods through simulations to evaluate its spatial and spectral performance. Experimental imaging of fluorescent beads, labeled cells, and lanthanide hydrogel beads demonstrates a practical, high-throughput solution for hyperspectral microscopy in biological and clinical applications.
引用
@article{arxiv.2606.30915,
title = {Spectral DiffuserScope: a compact snapshot hyperspectral microscope},
author = {Neerja Aggarwal and Eric Markley and Kyung Chul Lee and Seung Ah Lee and Junghyun Bae and Nakkyu Baek and Wook Park and Min Sung Cho and Youngbin Lim and Polly Fordyce and Stephanie Eberly and Lydia L. Sohn and William D. Houck and Kristina Monakhova and Laura Waller},
journal= {arXiv preprint arXiv:2606.30915},
year = {2026}
}