02327nam 2200457 450 991080701730332120240112051740.092-0-127122-01-5231-4987-6(CKB)5850000000320124(NjHacI)995850000000320124(MiAaPQ)EBC30589722(Au-PeEL)EBL30589722(OCoLC)1341863205(EXLCZ)99585000000032012420240112d2021 uy 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierCompact Accelerator Based Neutron Sources /International Atomic Energy AgencyFirst edition.Vienna, Austria :International Atomic Energy Agency,[2021]©20211 online resource (113 pages) illustrationsIAEA-TECDOC92-0-127022-4 Includes bibliographical references and index."The production of neutrons by accelerators began in the 1970s with construction of powerful proton accelerators to access neutrons via spallation. At the same time, low energy driven neutron processes emerged for neutron production using electron accelerators, ion beam accelerators, cyclotrons, and low energy linear accelerators. This wide variety of accelerator based neutron sources have come to be referred to as 'compact accelerator based neutron sources' (CANS). This publication provides an overview of the various types of CANS technologies that are currently available or planned in the near future. It illustrates many of the analytical and other applications of neutrons. Given the wide variety of power and costs, the publication also aims to show that in addition to replacing national medium flux research reactors for certain functions, smaller regional neutron sources may become viable, which may eventually broaden access to neutron facilities." -- Publisher's website.IAEA-TECDOC.NeutronsScatteringNeutronsScattering.539.7/58MiAaPQMiAaPQMiAaPQBOOK9910807017303321Compact Accelerator Based Neutron Sources4094322UNINA