Journal
SCIENTIFIC REPORTS
Volume 12, Issue 1, Pages -Publisher
NATURE PORTFOLIO
DOI: 10.1038/s41598-022-06982-2
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Funding
- Conseil Regional du Grand Est of the Fonds Europeen de Developpement Regional (FEDER)
- Institut Carnot ARTS
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This study utilizes nondestructive terahertz multispectral imaging to observe the corrosion layer on a lead funerary cross, successfully restoring and enhancing obscured inscriptions. The approach brings together the properties of terahertz radiation and advanced signal processing techniques, providing new perspectives and methods for archaeological studies.
The presence of a corrosion layer on lead art and arch AE ological objects can severely impede the interpretation of inscriptions, thus hampering our overall understanding of the object and its context. While the oxidation of lead that dominates corrosion may be chemically reversible via reduction, potentially providing some access to inscriptions otherwise obscured by time, corrosion damage is overall neither entirely reversible nor is the reduction process in all cases easy or feasible to carry out. In this study, by taking advantage of the unique penetration ability of terahertz radiation and the abundant frequency bands covered by a single-cycle terahertz pulse, we perform nondestructive terahertz multispectral imaging to look under the corrosion on a sixteenth century lead funerary cross (croix d'absolution) from Remiremont in Lorraine, France. The multispectral images obtained from various terahertz frequency bands are fed into a judiciously designed post-processing chain for image restoration and enhancement, thus allowing us for the first time to read obscured inscriptions that might have otherwise been lost. Our approach, which brings together in a new way the THz properties of the constituent materials and advanced signal- and image-processing techniques, opens up new perspectives for multi-resolution analysis at terahertz frequencies as a technique in arch AE ometry and will ultimately provide unprecedented information for digital acquisition and documentation, character extraction, classification, and recognition in arch AE ological studies.
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