Multi-band technical imaging in the research of the execution of paintings. The case study of the portrait of Carlos IV, by Francisco de Goya
Palabras clave:
multi-band imaging, technical photography, IR imaging, UV imaging, X-Ray imaging, reconstruction, Goya, painting
Resumen
Multi-band technical imaging (MBTI) is widely used as an established method for art examination. Although the diverse techniques that are employed have their own specific importance, if the many results in experimental hybrid images are confronted with one another they provide much more information. The main objective of this paper is to show the usefulness of the technique for a holistic understanding of a portrait of the King Carlos IV. More specifically, MBTI is intended to help in the reconstruction of the artist’s painting process, by revealing physical traces of the creation and execution of the portrait (ductus and brushstrokes, alterations, underdrawing and staining, pictorial composition process, changes and Pentimenti, inpaintings, pigment identification, etc.). For this case study, such information is necessary to delve into the painter’s work process, revealing some characteristics that make it unique, finally allowing the proper identification and attribution of the portrait.
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PINNA, Daniela; GALEOTTI, Monica; MAZZEO, Rocco. Scientific Examination for the Investigation of Paintings. A Handbook for Conservator-restorers. Firenze: Centro Di, 2009.
POLDI, G.; VILLA G. C. (2006). Dalla conservazione alla storia dell’arte. Riflettografia e analisi non invasive per lo studio dei dipinti. Pisa: Edizioni della Normale.
PUIG, I; COMPANY, X; GARRIDO, C.; HERRERO-CORTELL, M. (2016) Francisco de Goya Carlos IV. Protrait of King Carlos IV. CAEM-Universitat de LLeida: LLeida.
RORIMER J.J. (1931) “Ultraviolet rays and their use in the examination of works of art ”in Metropolitan Museum of Art, New York; 1st Ed. 1931
VAN ASPEREN DE BOER, J. (1969) “Reflectography of paintitngs using an Infrared Vidicon Television System”. En: Studies in Conservation, Vol. 14,. 96-118.
VITORINO, T., CASINI, A., CUCCI, C., MELO, M. J., PICOLLO, M., & STEFANI, L. (2015). Non-invasive identification of traditional red lake pigments in fourteenth to sixteenth centuries paintings through the use of hyperspectral imaging technique. Applied Physics A, 121(3), 891-901.
WARDA J. (ed.), FREY F., HELLER D., KUSHEL D., VITALE T., WEAVER G, “AIC Guide to Digital Photography and Conservation Documentation”, 2nd Edition, in American Institute for Conservation of Historic and Artistic Works, 2011.4.
COSENTINO, A. (2013) “A practical guide to Panoramic Multispectral Imaging”, e-Conservation Magazine, 25, 64–73.
COSENTINO, A. (2014) “Identification of pigments by multispectral imaging a flowchart method”, Heritage Science, 2:8. http://www.heritagesciencejournal.com/content/pdf/2050-7445-2-8.pdf
COSENTINO, A; CAGGIANI, M.C.; RUGGIERO,G.; SALVEMINI, F. (2014) “Panoramic Multispectral Imaging: Training and Case studies”, Belgian Association of Conservators Bulletin, 2nd Trimester, 7–11.
COSENTINO, A; STOUT S. (2014)”Photoshop and Multispectral Imaging for Art Documentation”, e-Preservation Science, 11, 91–98. https://www.google.com/url?sa=t&rct=j&q=&esrc=s&source=web&cd=1&ved=0ahUKEwjqyqO31OvaAhWL16QKHaR6C8UQFggsMAA&url=http%3A%2F%2Fwww.morana-rtd.com%2Fe-preservationscience%2F2014%2FePS_2014_a11_Cosentino.pdf&usg=AOvVaw3CRyiTOwtseYGTA-2Av55c
COSENTINO, A. (2015 a) “Imaging Multispettrale low-cost con filtri interferenziali”, Archeomatica, 2, 12-17.
COSENTINO, A. (2015 b)“Multispectral Imaging of Pigments with a digital camera and 12 interferential filters”, e-Preservation Science, 12, 1-7).
COSENTINO, A. (2015 c) “Multispectral imaging system using 12 interference filters for mapping pigments”, Conservar Património 21, 25-38.
COSENTINO, A. (2015 d) “Effects of Different Binders on Technical Photography and Infrared Reflectography of 54 Historical Pigments”, International Journal of Conservation Science, 6 (3), 287-298. https://chsopensource.org/2015/09/11/effects-of-different-binders-on-technical-photography-and-infrared-reflectography-of-54-historical-pigments/
COSENTINO, A. (2015 e) “Practical notes on ultraviolet technical photography for art examination”, Conservar Património 21, 53-62.
COSENTINO, A. (2015 f) “Multispectral imaging and the art expert”, Spectroscopy Europe, 27 (2) 6-9.
COSENTINO, A. (2016) “Infrared Technical Photography for Art Examination”, e-Preservation Science, 13, 1-6.
CUCCI ,C; DELANEY, J. K, PICOLLO, M. (2016) “Reflectance Hyperspectral Imaging for Investigation of Works of Art: Old Master Paintings and Illuminated Manuscripts”. Accouns of Chemical Research, vol. 49, 2070-2079.
CUCCI, C., BRACCI, S., CASINI, A., INNOCENTI, S., PICOLLO, M., STEFANI, L.& SCUDIERI, M. (2018). The illuminated manuscript Corale 43 and its attribution to Beato Angelico: Non-invasive analysis by FORS, XRF and hyperspectral imaging techniques. Microchemical Journal, 138, 45-57.
GABALDÓN, A. (1999) Técnicas de Análisis Físico: Radiografía y Reflectografía de Infrarrojo, aplicadas al estudio de los bienes muebles. Arbor, 1999, vol. 164, no 645, p. 27. http://search.proquest.com/openview/16f5d24490d437c820c25c4c9bcc3d9e/1?pq-origsite=gscholar&cbl=1818224
GARRIDO, C. Aplicación de la metodología científica al estudio de la pintura. En Arte: materiales y conservación. Fundación Argentaria, 1998. p. 41-65. http://mail.foronuclear.org/images/stories/recursos/zona-descarga/periodistas/2013/Aplicacion_metodologia_cientifica_estudio_pintura_Carmen_Garrido_Museo_Prado.pdf
MARILENA, T. (ed.) (2017). Salve Mater. L’Annunciazione di Beato Angelico a San Marco. The Annunciation by Fra Angelico at San Marco. Quanderni del Museo di San Marco. Firenze: Sillabe.
MATTEINI, M.; MOLES, A. (2001) Ciencia y Restauración. Método de investigación. Sevilla: Editorial Nerea, S.A.
MOUTSATSOU A., SKAPOULA D., DOULGERIDIS M., “The Contribution of Transmitted Infrared Imaging to Non-Invasive Study of Canvas Paintings at the National Gallery – Alexandros Soutzos Museum, Greece”, in e-conservation magazine, 22, 2011, pp. 53-61. http://www.e-conserva-tionline.com/content/view/1038
PAMART, A., GUILLON, O., FARACI, S., GATTET, E., GENEVOIS, M., VALLET, J. M.; DE LUCA, L. (2017). Multispectral Photogrammetric Data Acquisition and Processing Forwall Paintings Studies. The International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences, 42, 559.
PELAGOTTI, A., DEL MASTIO, A., DE ROSA, A., & PIVA, A. (2008). Multispectral imaging of paintings. IEEE Signal Processing Magazine, 25(4), 27-36.
PINNA, Daniela; GALEOTTI, Monica; MAZZEO, Rocco. Scientific Examination for the Investigation of Paintings. A Handbook for Conservator-restorers. Firenze: Centro Di, 2009.
POLDI, G.; VILLA G. C. (2006). Dalla conservazione alla storia dell’arte. Riflettografia e analisi non invasive per lo studio dei dipinti. Pisa: Edizioni della Normale.
PUIG, I; COMPANY, X; GARRIDO, C.; HERRERO-CORTELL, M. (2016) Francisco de Goya Carlos IV. Protrait of King Carlos IV. CAEM-Universitat de LLeida: LLeida.
RORIMER J.J. (1931) “Ultraviolet rays and their use in the examination of works of art ”in Metropolitan Museum of Art, New York; 1st Ed. 1931
VAN ASPEREN DE BOER, J. (1969) “Reflectography of paintitngs using an Infrared Vidicon Television System”. En: Studies in Conservation, Vol. 14,. 96-118.
VITORINO, T., CASINI, A., CUCCI, C., MELO, M. J., PICOLLO, M., & STEFANI, L. (2015). Non-invasive identification of traditional red lake pigments in fourteenth to sixteenth centuries paintings through the use of hyperspectral imaging technique. Applied Physics A, 121(3), 891-901.
WARDA J. (ed.), FREY F., HELLER D., KUSHEL D., VITALE T., WEAVER G, “AIC Guide to Digital Photography and Conservation Documentation”, 2nd Edition, in American Institute for Conservation of Historic and Artistic Works, 2011.4.
Publicado
2018-12-20
Cómo citar
Herrero-Cortell, M. A., Raich, M., Artoni, P., & Puig, I. (2018). Multi-band technical imaging in the research of the execution of paintings. The case study of the portrait of Carlos IV, by Francisco de Goya. Ge-Conservacion, 14, 5-15. https://doi.org/10.37558/gec.v14i1.583
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