Applications in Heavy Ion Radiolysis Jay A. LaVerne Radiation Laboratory and Department of Physics University of Notre Dame Funded by: Division of Chemical Sciences, Geosciences, and Biosciences Office of Basic Energy Sciences U. S. Department of Energy
Applications in Heavy Ion Radiolysis. Funded by:Division of Chemical Sciences, Geosciences, and Biosciences Office of Basic Energy Sciences U. S. Department of Energy. Jay A. LaVerne Radiation Laboratory and Department of Physics University of Notre Dame. - PowerPoint PPT Presentation
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Applications in Heavy Ion Radiolysis
Jay A. LaVerneRadiation Laboratory and Department of Physics
University of Notre Dame
Funded by: Division of Chemical Sciences, Geosciences, and BiosciencesOffice of Basic Energy SciencesU. S. Department of Energy
Fundamental Basis to Applications
Examine energy loss, charge and other properties of ionizing radiation.
Elucidate fundamental radiolytic decomposition of molecules and the kinetics of the transients.
physics chemistry medicine / engineering / environment
50 MeV C6+ ions in air
Notre Dame Radiation Laboratory
Elucidate fundamental radiolytic decomposition of molecules and the kinetics of the transients
Examine problems relevant to nuclear energy
3 electron accelerators (2-8 MeV)3 gamma sources (0.3-24 kCi)
Gamma source
Electron linac
Notre Dame Radiation Laboratory
Radiation Effects in Nuclear Power Industry
Waste Storage Power Plant Chemistry
Fuel ProcessingWaste Transport
Radiation effects are found throughout the nuclear energy complex.