Abstract
Continuous wave terahertz (CW THz) imaging, is a variant of terahertz imaging that has been gaining scientific and technological relevance in multiple areas. In this paper the fundamental phenomena of CW THz were studied and a mathematical model was developed that successfully describes the Fabry–Perot interference for such a system, opening the possibility for measurement of thicknesses and surface curvatures. The capabilities of the system were tested using different types of defects, such as voids, water infiltrations and thin metallic wires. The interactions between different materials, features and the radiation beam were numerically studied using finite element method and the results agreed with the experiments. By comparing the results with other Non-Destructive Testing methods, it was found that CW THz imaging is particularly interesting to image water infiltrations and composite materials that incorporate conductive wires.
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