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Non-Destructive Spectroscopic Investigations on Paintings Using Optical Fibers

Published online by Cambridge University Press:  28 February 2011

M. Bacci
Affiliation:
Istituto Ricerca Onde Elettromagnetiche - CNR, Florence, Italy
S. Baronti
Affiliation:
Istituto Ricerca Onde Elettromagnetiche - CNR, Florence, Italy
A. Casini
Affiliation:
Istituto Ricerca Onde Elettromagnetiche - CNR, Florence, Italy
F. Lotti
Affiliation:
Istituto Ricerca Onde Elettromagnetiche - CNR, Florence, Italy
M. Picollo
Affiliation:
Istituto Ricerca Onde Elettromagnetiche - CNR, Florence, Italy
O. Casazza
Affiliation:
Galleria degli Uffizi, Florence, Italy
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Abstract

The main objective of our research is the development of totally non-destructive methodologies for the investigation of art works. We propose the use of fiber optic reflectance spectroscopy (FORS) in the visible and near-infrared region as a tool for the identification of the pigments used in painting. We have considered several representative inorganic artists' pigments (mainly till the Renaissance period); powder X-ray diffractograms and diffuse reflectance spectra in the visible, near-, middle- and far-infrared range were recorded for pure pigments. Then we prepared suitable samples with the same pigments using fresco, tempera and oil techniques. The visible and near-infrared spectra of these samples were recorded using an optical fiber spectrum analyzer; color analysis (chromaticity, dominant wavelength and purity) was also performed. The obtained results were used in the interpretation of the spectra obtained from some paintings collected in the Uffizi Gallery, Florence (Giotto and Luca Signorelli). The pointwise information obtained by FORS analysis was also used to calibrate and tune an image spectroscopy system, based on sequences of band-pass filtered images in the near infrared range.

Type
Research Article
Copyright
Copyright © Materials Research Society 1992

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References

1. Bacci, M., Baldini, F., Carla, R. and Linari, R., Appl. Spectrosc., 45, 26 (1991).Google Scholar
2. Staniforth, S., Studies in Conservation, 30, 101 (1985).Google Scholar
3. Bacci, M., Baronti, S., Casini, A., Lotti, F. and Picollo, M.: Near infrared Image Spectroscopy of Paintings, Proc. of the International Workshop on “Advanced Infrared Technology amd Applications”, Florence, April 13-14, 1992 (in press).Google Scholar
4. Nassau, K., The Physics and Chemistr of Color (Wiley Interscience, NewYork, 1983).Google Scholar
5. Judd, D. B. and Wyszecki, G., Color in Business. Science and Industry (Wiley, NewYork, 1975).Google Scholar
6. Kortilm, G., Reflectance Spectroscopy (Springer-Verlag, Berlin, 1969).Google Scholar
7. Hunt, G. R., ‘Salisbury, J. W. and Lenhoff, C. J., Modem Geology, 5, 1 (1971).Google Scholar
8. Hunt, G. R., Geophysics, 44, 1974 (1979).CrossRefGoogle Scholar
9. Hunt, G. R. and ‘Salisbury, J. W., Modern Geology, 1, 283 (1970); 2, 23 (1971).Google Scholar
10. Crowley, J. K. and Vergo, N., Clays & Clay Minerals, 36, 310 (1988).Google Scholar