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《Comptes Rendus Physique》2018,19(7):575-588
Synchrotron-based techniques are increasingly used in the field of cultural heritage, and this review focuses notably on the application of nano-beams to access high-spatial-resolution information on fragments sampled in historical or model artworks. Depending on the targeted information, various nano-analytical techniques can be applied, providing both identification and localization of the various components. More precisely, nano-X-ray fluorescence probes elements, nano-X-ray diffraction identify crystalline phases, and nano X-ray absorption spectroscopy is sensitive to speciation. Furthermore, computed tomography-based techniques can provide useful information about the morphology and in particular the porosity of materials. 相似文献
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《Comptes Rendus Physique》2018,19(7):553-560
Cultural heritage materials are often complex and heterogeneous, with a multi-scale architecture. Phases from a variety of crystalline forms co-exist in a wide grain size distribution, with each of these phases keeping in their structural arrangement a memory of the transformations that occurred to the material. Over the last two decades, X-ray diffraction has been applied successfully to the study of cultural heritage materials, with the use of synchrotron facilities offering new possibilities to describe the structural features of such complex materials. The long-range and/or short-range organization of the different crystallographic phases as well as their global position/dispersion in the material are closely related to the properties of the material (optical, mechanical…), its manufacturing process, functionality, or long-term conservation. In this paper, possible diffraction setups and data collection strategies are discussed in order to retrieve adequate data from crystalline and amorphous phases and to take into account single-crystal contributions. 相似文献
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《Comptes Rendus Physique》2018,19(7):533-542
Cosmic rays are a constant, free source of radiation that can be exploited in various ways to probe heavy and extended objects. Analyzed with proper detection systems, they can produce radiographic as well as tomographic images of bulky materials. Several applications have been proposed, in particular in the domain of security checks, and some are presently fielded for routine use. In this paper, cosmic muon technology is presented, and its possible use in the field of cultural heritage is described. 相似文献
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