Ústav technické a experimentální fyziky Institute of Experimental and Applied Physics

Energy sensitive X-ray radiography for the non-destructive inspection of historical paintings

NázevTitle
Energy sensitive X-ray radiography for the non-destructive inspection of historical paintingsEnergy sensitive X-ray radiography for the non-destructive inspection of historical paintings
Druh výsledkuResult type
Příspěvek ve sborníkuProceedings paper
AutořiAuthors
J. Žemlička, J. Jakůbek, M. Kroupa, D. Hradil, J. Hradilová, H. Mislerová
Časopis / citaceJournal / citation
In: Acta Artis Academica 2010: Příběh umění - proměny výtvarného díla v čase / The Story of Art - Artwork Changes in Time. Praha: Akademie výtvarných umění v Praze, 2010, pp. 345-350. Acta Artis Academica. ISBN 978-80-87108-14-7. Available from: http://invenio.nusl.cz/record/109924?ln=en
JazykLanguage
eng
WoSWoS
000288141200018
RIVRIV
RIV/68407700:21670/10:00226201!RIV15-MSM-21670___
ProjektProject
Příprava, modifikace a charakterizace materiálů energetickým zářenímPreparation, Modification and Characterization of Materials by Energetic Radiation; Využití radionuklidů a ionizujícího zářeníApplication of radionuclides and ionising radiation

AbstraktAbstract

The technical composition of painted artworks is usually very complex and they belong to the most sophisticated cultural heritage artefacts. In the field of their inspection there is a rising demand for the non-destructive imaging and analytical methods which are able to reveal the inner composition of investigated objects. Several non-invasive methods based on the interaction of ionizing radiation with the matter have been successfully utilized during the last decades. These methods can be divided into two main groups. The better known are transmission methods (e.g. classical X-ray radiography) the less-used are emission methods (e.g. X-ray fluorescence imaging). The quality of the obtained image is highly dependent on the imaging characteristics of the used detector. The presently used ones (CCD cameras and CMOS sensors) create the image from analogue signal by the charge integration. This image is usually degraded by the presence of noise. This complication is exceeded by novel pixel detectors of Medipix family based on single particle digital counting. Furthermore these devices offer very high contrast (in principle unlimited) in the obtained image. The image can be acquired with spatial resolution better than one micrometer. Another advantage of these detectors is their ability to directly measure the energy of incident particles. This feature can be used for energy sensitive X-ray radiography (i.e. multi-channel images) and X-ray fluorescence mapping of the surface elemental composition. For the purposes of this work the laboratory ALMA in Prague prepared several multilayer samples of paints using different pigments. The results of mentioned methods applied on the test samples are summarized in this article. We had two goals: to build a comprehensive methodology for the application of these procedures in the laboratory and to use obtained knowledge for the construction of the mobile measuring system for the analysis of painted artworks in situ.

The technical composition of painted artworks is usually very complex and they belong to the most sophisticated cultural heritage artefacts. In the field of their inspection there is a rising demand for the non-destructive imaging and analytical methods which are able to reveal the inner composition of investigated objects. Several non-invasive methods based on the interaction of ionizing radiation with the matter have been successfully utilized during the last decades. These methods can be divided into two main groups. The better known are transmission methods (e.g. classical X-ray radiography) the less-used are emission methods (e.g. X-ray fluorescence imaging). The quality of the obtained image is highly dependent on the imaging characteristics of the used detector. The presently used ones (CCD cameras and CMOS sensors) create the image from analogue signal by the charge integration. This image is usually degraded by the presence of noise. This complication is exceeded by novel pixel detectors of Medipix family based on single particle digital counting. Furthermore these devices offer very high contrast (in principle unlimited) in the obtained image. The image can be acquired with spatial resolution better than one micrometer. Another advantage of these detectors is their ability to directly measure the energy of incident particles. This feature can be used for energy sensitive X-ray radiography (i.e. multi-channel images) and X-ray fluorescence mapping of the surface elemental composition. For the purposes of this work the laboratory ALMA in Prague prepared several multilayer samples of paints using different pigments. The results of mentioned methods applied on the test samples are summarized in this article. We had two goals: to build a comprehensive methodology for the application of these procedures in the laboratory and to use obtained knowledge for the construction of the mobile measuring system for the analysis of painted artworks in situ.