Particle accelerators are used today for an increasing range of scientific and technological applications. They are very powerful tools to investigate the origin and structure of matter, and to improve understanding of the interaction of radiation with materials, including transmutation of nuclides and beneficial effects or risks from radiation. They are used to identify properties of molecules that can be used in pharmacy, for medical diagnosis and therapy, or for biophysics studies.Particle accelerators must be operated in safe ways that protect operators, the population and the environment. New technological and research applications give rise to new aspects in radiation shielding. These workshop proceedings review the state of the art in radiation shielding of accelerator facilities and of irradiated targets. They also evaluate progress made and discuss the additional developments required to meet radiation protection needs. Mashnik, S.G., User Manual for the Code CEM95, JINR, Dubna, USSR; OECD NEA Data Bank, Paris, France, ...  Mashnik, S.G, A.J. Sierk, K.K. Gudima, Invited talk at RPSD 2002, Santa Fe, USA, 2000, LANL Report, LA-UR- 02-5185; E-print: nucl-th/0208048.  Baznat, M., K. Gudima, S. Mashnik, Proceedings of the AccApp2003, San Diego, CA, 2003, La Grange Park, IL, USA, pp. 976-985anbsp;...
|Title||:||Shielding Aspects of Accelerators, Targets and Irradiation Facilities--SATIF-7|
|Author||:||OECD Nuclear Energy Agency, Organisation for Economic Co-operation and Development|
|Publisher||:||Agence pour l'Energie Nucléaire - 2005-05-24|