Detection and imaging of chemicals and hidden explosives using terahertz time-domain spectroscopy and deep learning
Xinghe Jiang, Yuhang Li, Yuzhu Li, Che-Yung Shen, Aydogan Ozcan, Mona Jarrahi

TL;DR
This paper introduces a system combining terahertz spectroscopy and deep learning to accurately detect hidden chemicals and explosives in real-world conditions.
Contribution
A novel chemical imaging system using THz-TDS and deep learning for robust, pixel-level explosive detection.
Findings
The system achieved 99.42% average classification accuracy across eight chemicals in blind testing.
It maintained 88.83% accuracy for explosives concealed under opaque paper coverings.
The system offers a 96 dB dynamic range and 4.5 THz bandwidth for practical stand-off detection.
Abstract
Detecting concealed chemicals and explosives remains a critical challenge in global security. Terahertz time-domain spectroscopy (THz-TDS) offers a promising non-invasive and stand-off detection technique owing to its ability to penetrate optically opaque materials without causing ionization damage. While many chemicals exhibit distinct spectral features in the terahertz range, conventional terahertz-based detection methods often struggle in real-world environments, where variations in sample geometry, thickness, and packaging can lead to inconsistent spectral responses. In this study, we present a chemical imaging system that integrates THz-TDS with deep learning to enable accurate pixel-level identification and classification of different explosives. Operating in reflection mode and enhanced with plasmonic nanoantenna arrays, our THz-TDS system achieves a peak dynamic range of 96 dB…
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Taxonomy
TopicsTerahertz technology and applications · Spectroscopy and Laser Applications · Superconducting and THz Device Technology
