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Main Authors: Karimi, Arash, Harris, Zachery B., Heller, Erica, Vahey, Paul, Arbab, M. Hassan
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.08172
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author Karimi, Arash
Harris, Zachery B.
Heller, Erica
Vahey, Paul
Arbab, M. Hassan
author_facet Karimi, Arash
Harris, Zachery B.
Heller, Erica
Vahey, Paul
Arbab, M. Hassan
contents Coating thickness measurement and inspection of defects beneath optically opaque surfaces are among the most promising commercial applications of the terahertz (THz) imaging technology. However, there are two main sources of complexity in THz spectral measurements that have resulted in reduced accuracy and high uncertainty in the determination of coating thicknesses. These factors include: 1. The need for \textit{a priori} knowledge of the complex index of refraction of each coating layer, and 2. The complex and polarization-sensitive reflectivity of samples with carbon-fiber-reinforced polymer (CFRP) substrates. In this paper, we propose a combined hardware and software solution to address these two limitations. We employ the polarimetric version of our Portable HAndheld Spectral Reflection (PHASR) Scanner and use a novel training model on time-of-flight measurements obtained by sparse deconvolution of the THz time-domain pulses. Our method does not depend on separate measurement of the index of refraction of the coating layers; rather, it relies on a physics-based linear model, trained using a small subset of the sample data. We show that thickness measurements with mean square error of about 10 $μ$m and accuracy of more than 92\% can be achieved when the useful bandwidth of the scanner is limited to about 1.5 THz using photoconductive antenna emitters and detectors. We show that the anisotropic response of the carbon fiber bundles and the weave pattern structure of the substrate can significantly influence the accuracy of the coating measurement, and therefore a polarimetric imaging approach should be used for inspection of similar samples.
format Preprint
id arxiv_https___arxiv_org_abs_2505_08172
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Measurement of Multilayer Coating Thickness on Interwoven Carbon-Fiber-Reinforced Polymers Using the Terahertz PHASR Scanner
Karimi, Arash
Harris, Zachery B.
Heller, Erica
Vahey, Paul
Arbab, M. Hassan
Applied Physics
Optics
Coating thickness measurement and inspection of defects beneath optically opaque surfaces are among the most promising commercial applications of the terahertz (THz) imaging technology. However, there are two main sources of complexity in THz spectral measurements that have resulted in reduced accuracy and high uncertainty in the determination of coating thicknesses. These factors include: 1. The need for \textit{a priori} knowledge of the complex index of refraction of each coating layer, and 2. The complex and polarization-sensitive reflectivity of samples with carbon-fiber-reinforced polymer (CFRP) substrates. In this paper, we propose a combined hardware and software solution to address these two limitations. We employ the polarimetric version of our Portable HAndheld Spectral Reflection (PHASR) Scanner and use a novel training model on time-of-flight measurements obtained by sparse deconvolution of the THz time-domain pulses. Our method does not depend on separate measurement of the index of refraction of the coating layers; rather, it relies on a physics-based linear model, trained using a small subset of the sample data. We show that thickness measurements with mean square error of about 10 $μ$m and accuracy of more than 92\% can be achieved when the useful bandwidth of the scanner is limited to about 1.5 THz using photoconductive antenna emitters and detectors. We show that the anisotropic response of the carbon fiber bundles and the weave pattern structure of the substrate can significantly influence the accuracy of the coating measurement, and therefore a polarimetric imaging approach should be used for inspection of similar samples.
title Measurement of Multilayer Coating Thickness on Interwoven Carbon-Fiber-Reinforced Polymers Using the Terahertz PHASR Scanner
topic Applied Physics
Optics
url https://arxiv.org/abs/2505.08172