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Main Authors: Yang, Xiaoyu, Zhang, Haonan, Lin, Feihong, Tang, Mingwei, Hasan, Tawfique, Kaminski, Clemens F., Liu, Xu, Yang, Qing
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.16693
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author Yang, Xiaoyu
Zhang, Haonan
Lin, Feihong
Tang, Mingwei
Hasan, Tawfique
Kaminski, Clemens F.
Liu, Xu
Yang, Qing
author_facet Yang, Xiaoyu
Zhang, Haonan
Lin, Feihong
Tang, Mingwei
Hasan, Tawfique
Kaminski, Clemens F.
Liu, Xu
Yang, Qing
contents A miniaturized full-frequency encoded illumination (mini-FEI) chip is presented for high-throughput super-resolution imaging using the spatial frequency shift (SFS) effect. A tunable full SFS scheme is achieved through propagating and evanescent wave. The multi-illumination modes are precisely and flexibly modulated by an encoded LED array. The light travels to the sample via a set of prisms, producing the super-resolution images with high signal-to-noise ratio (SNR). Mini-FEI super-resolution imaging reaches a resolution of 333 nm (~λ/4NA), close to the theoretical limit, while maintaining a large field of view (FOV) of ~1 mm2. The method is validated on label-free samples including USAF Target, Star Target, and onion root tip cells, all of which could be successfully reconstructed. Through the introduction of integrated LED arrays for evanescent wave excitation, expensive laser systems can be avoided and the system significantly miniaturized. The mini-FEI super-resolution imaging chip is simple and cost effective to fabricate and can be used in conjunction with any inverted brightfield microscope frame and thus has great potential for widespread use in scientific and industrial research environments.
format Preprint
id arxiv_https___arxiv_org_abs_2507_16693
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle High-throughput Super-Resolution Imaging Chip based on Miniaturized Full-frequency Encoded-illumination
Yang, Xiaoyu
Zhang, Haonan
Lin, Feihong
Tang, Mingwei
Hasan, Tawfique
Kaminski, Clemens F.
Liu, Xu
Yang, Qing
Optics
A miniaturized full-frequency encoded illumination (mini-FEI) chip is presented for high-throughput super-resolution imaging using the spatial frequency shift (SFS) effect. A tunable full SFS scheme is achieved through propagating and evanescent wave. The multi-illumination modes are precisely and flexibly modulated by an encoded LED array. The light travels to the sample via a set of prisms, producing the super-resolution images with high signal-to-noise ratio (SNR). Mini-FEI super-resolution imaging reaches a resolution of 333 nm (~λ/4NA), close to the theoretical limit, while maintaining a large field of view (FOV) of ~1 mm2. The method is validated on label-free samples including USAF Target, Star Target, and onion root tip cells, all of which could be successfully reconstructed. Through the introduction of integrated LED arrays for evanescent wave excitation, expensive laser systems can be avoided and the system significantly miniaturized. The mini-FEI super-resolution imaging chip is simple and cost effective to fabricate and can be used in conjunction with any inverted brightfield microscope frame and thus has great potential for widespread use in scientific and industrial research environments.
title High-throughput Super-Resolution Imaging Chip based on Miniaturized Full-frequency Encoded-illumination
topic Optics
url https://arxiv.org/abs/2507.16693