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Main Authors: Yao, Chunhui, Ma, Jie, Wang, Ningning, Bao, Peng, Zhuo, Wei, Zhang, Tao, Zhang, Wanlu, Xu, Kangning, Yan, Ting, Ming, Liang, Ye, Yuxiao, Hasan, Tawfique, White, Ian, Penty, Richard, Cheng, Qixiang
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2502.08749
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author Yao, Chunhui
Ma, Jie
Wang, Ningning
Bao, Peng
Zhuo, Wei
Zhang, Tao
Zhang, Wanlu
Xu, Kangning
Yan, Ting
Ming, Liang
Ye, Yuxiao
Hasan, Tawfique
White, Ian
Penty, Richard
Cheng, Qixiang
author_facet Yao, Chunhui
Ma, Jie
Wang, Ningning
Bao, Peng
Zhuo, Wei
Zhang, Tao
Zhang, Wanlu
Xu, Kangning
Yan, Ting
Ming, Liang
Ye, Yuxiao
Hasan, Tawfique
White, Ian
Penty, Richard
Cheng, Qixiang
contents Optical spectrometers are fundamental across numerous disciplines in science and technology. However, miniaturized versions, while essential for in situ measurements, are often restricted to coarse identification of signature peaks and inadequate for metrological purposes. Here, we introduce a new class of spectrometer, leveraging the convolution theorem as its mathematical foundation. Our convolutional spectrometer offers unmatched performance for miniaturized systems and distinct structural and computational simplicity, featuring a centimeter-scale footprint for the fully packaged unit, low cost (~$10) and a 2400 cm-1 (approximately 500 nm) bandwidth. We achieve excellent precision in resolving complex spectra with sub-second sampling and processing time, demonstrating a wide range of applications from industrial and agricultural analysis to healthcare monitoring. Specifically, our spectrometer system classifies diverse solid samples, including plastics, pharmaceuticals, coffee, flour and tea, with 100% success rate, and quantifies concentrations of aqueous and organic solutions with detection accuracy surpassing commercial benchtop spectrometers. We also realize the non-invasive sensing of human biomarkers, such as skin moisture (mean absolute error; MAE = 2.49%), blood alcohol (1.70 mg/dL), blood lactate (0.81 mmol/L), and blood glucose (0.36 mmol/L), highlighting the potential of this new class of spectrometers for low-cost, high-precision, portable/wearable spectral metrology.
format Preprint
id arxiv_https___arxiv_org_abs_2502_08749
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Optical Convolutional Spectrometer
Yao, Chunhui
Ma, Jie
Wang, Ningning
Bao, Peng
Zhuo, Wei
Zhang, Tao
Zhang, Wanlu
Xu, Kangning
Yan, Ting
Ming, Liang
Ye, Yuxiao
Hasan, Tawfique
White, Ian
Penty, Richard
Cheng, Qixiang
Optics
Optical spectrometers are fundamental across numerous disciplines in science and technology. However, miniaturized versions, while essential for in situ measurements, are often restricted to coarse identification of signature peaks and inadequate for metrological purposes. Here, we introduce a new class of spectrometer, leveraging the convolution theorem as its mathematical foundation. Our convolutional spectrometer offers unmatched performance for miniaturized systems and distinct structural and computational simplicity, featuring a centimeter-scale footprint for the fully packaged unit, low cost (~$10) and a 2400 cm-1 (approximately 500 nm) bandwidth. We achieve excellent precision in resolving complex spectra with sub-second sampling and processing time, demonstrating a wide range of applications from industrial and agricultural analysis to healthcare monitoring. Specifically, our spectrometer system classifies diverse solid samples, including plastics, pharmaceuticals, coffee, flour and tea, with 100% success rate, and quantifies concentrations of aqueous and organic solutions with detection accuracy surpassing commercial benchtop spectrometers. We also realize the non-invasive sensing of human biomarkers, such as skin moisture (mean absolute error; MAE = 2.49%), blood alcohol (1.70 mg/dL), blood lactate (0.81 mmol/L), and blood glucose (0.36 mmol/L), highlighting the potential of this new class of spectrometers for low-cost, high-precision, portable/wearable spectral metrology.
title Optical Convolutional Spectrometer
topic Optics
url https://arxiv.org/abs/2502.08749