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Nuclear physics. --- Nuclear chemistry. --- Physique nucléaire. --- Chimie nucléaire.
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Nuclear physics --- Nuclear chemistry --- Nuclear energy --- radiochemie --- atoomfysica
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For all archaeological artefactual evidence, the study of the provenance, production technology and trade of raw materials must be based on archaeometry. Whereas the study of the provenance and trade of stone and ceramics is already well advanced, this is not necessarily the case for ancient glass. The nature of the raw materials used and the geographical location of their transformation into artefacts often remain unclear. Currently, these questions are addressed by the use of radiogenic isotope analysis. With the specific information the technique provides, archaeologists can further their understanding of the of ancient glass production, based not only on typo-morphological features but also on exact scientific methods. The book captures the state of the art in this rapidly advancing field. It includes methodological papers on isotope analysis, innovative applications of several isotope systems to current questions in glass and glaze research, and advances in the knowledge of the economy of vitreous materials.
Academic collection --- 902 --- Archeologie --- 902 Archeologie --- glass [material] --- Nuclear chemistry --- archaeometry --- fysicochemie --- Industrial archeology --- Glass --- Archaeometry --- Archaeology --- Art --- Methodology --- Analysis --- History --- Methodology. --- Analysis.
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Radioactive particles have been released to the environment from a number of sources, including nuclear weapon tests, nuclear accidents and discharges from nuclear installations. Particle characteristics influence the mobility, biological uptake and effects of radionuclides, hence information on these characteristics is essential for assessing environmental impact and risks. This publication presents a series of papers covering sources and source term characterisation, methodologies for characterizing particles, and the impact of particles on the behaviour of radioactive particles in the environment. Sources covered include the Chernobyl accident, nuclear weapons accidents at Thule and Palomares accident, the discharges from Dounreay and Krashnoyarsk, and depleted uranium in Kosovo and Kuwait. The overall aim is that an increased understanding of particle characteristics and behavior will help to reduce some of the uncertainties in environmental impact and risk assessment for particle contaminated areas.
Nuclear physics --- Nuclear chemistry --- General ecology and biosociology --- Hygiene. Public health. Protection --- Radiotherapy. Isotope therapy --- Toxicology --- stralingschemie --- deeltjesfysica --- ecotoxicologie --- stralingshygiëne --- farmacologie --- toxicologie --- kernenergie
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Nuclear physics --- Nuclear chemistry --- General ecology and biosociology --- Hygiene. Public health. Protection --- Radiotherapy. Isotope therapy --- Toxicology --- stralingschemie --- deeltjesfysica --- ecotoxicologie --- stralingshygiëne --- farmacologie --- toxicologie --- kernenergie
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Radioactive particles have been released to the environment from a number of sources, including nuclear weapon tests, nuclear accidents and discharges from nuclear installations. Particle characteristics influence the mobility, biological uptake and effects of radionuclides, hence information on these characteristics is essential for assessing environmental impact and risks. This publication presents a series of papers covering sources and source term characterisation, methodologies for characterizing particles, and the impact of particles on the behaviour of radioactive particles in the environment. Sources covered include the Chernobyl accident, nuclear weapons accidents at Thule and Palomares accident, the discharges from Dounreay and Krashnoyarsk, and depleted uranium in Kosovo and Kuwait. The overall aim is that an increased understanding of particle characteristics and behavior will help to reduce some of the uncertainties in environmental impact and risk assessment for particle contaminated areas.
Environmental monitoring -- Congresses. --- Radioactive pollution -- Congresses. --- Radioactive pollution -- Environmental aspects. --- Radioactive pollution -- Evaluation. --- Environmental Sciences --- Earth & Environmental Sciences --- Radioactive pollution --- Environmental toxicology. --- Ecotoxicology --- Pollutants --- Pollution --- Toxicology --- Environment. --- Nuclear chemistry. --- Nuclear engineering. --- Radiation protection. --- Radiation --- Ecotoxicology. --- Effects of Radiation/Radiation Protection. --- Nuclear Chemistry. --- Nuclear Engineering. --- Safety measures. --- Environmental health --- Environmental protection. --- Nuclear Energy. --- Chemistry, Nuclear --- Chemistry, Physical and theoretical --- Environmental quality management --- Protection of environment --- Environmental sciences --- Applied ecology --- Environmental engineering --- Environmental policy --- Environmental quality --- Radiation—Safety measures. --- Nuclear energy. --- Atomic energy --- Atomic power --- Energy, Atomic --- Energy, Nuclear --- Nuclear power --- Power, Atomic --- Power, Nuclear --- Force and energy --- Nuclear physics --- Power resources --- Nuclear engineering --- Nuclear facilities --- Nuclear power plants --- Radiation monitoring --- Radiation protection --- Radioactive substances --- Fissionable materials --- Materials, Fissionable --- Materials, Radioactive --- Minerals, Radioactive --- Radio-elements --- Radioactive materials --- Radioactive minerals --- Substances, Radioactive --- Radiochemistry
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