Integrated Spectropolarimeter by Metasurface-Based Diffractive Optical Networks
Abstract
Conventional spectrometer and polarimeter systems rely on bulky optics, fundamentally limiting compact integration and hindering multi-dimensional optical sensing capabilities. Here, we propose a spectropolarimeter enabled by metasurface-based diffractive optical networks that simultaneously performs spectrometric and polarimetric measurements in a compact device. By leveraging the wavelength- and polarization-dependent phase modulation of metasurfaces, our system encodes the spectral and polarization information of incident light into spatially resolved intensity distributions, which are subsequently decoded by a trained deep neural network, enabling simultaneous high-accuracy reconstruction of both spectral compositions and Stokes parameters through a single-shot measurement. Experiments validate the proposed network's accurate reconstruction of the spectral and polarization information across a broad wavelength range, and further confirm its imaging capability. Notably, we demonstrate a chip-integrated sensor prototype combing both measurement functionalities into a commercial CMOS image sensor. This integrated platform provides a compact solution for on-chip multi-dimensional optical sensing, holding significant potential for versatile sensing, biomedical diagnosis, and industrial metrology.
Cite
@article{arxiv.2507.20229,
title = {Integrated Spectropolarimeter by Metasurface-Based Diffractive Optical Networks},
author = {Jumin Qiu and Tingting Liu and Chenxuan Xiang and Tianbao Yu and Qiegen Liu and Shuyuan Xiao},
journal= {arXiv preprint arXiv:2507.20229},
year = {2026}
}