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000893999 041__ $$aEnglish
000893999 1001_ $$0P:(DE-Juel1)168124$$aGutberlet, Thomas$$b0$$eCorresponding author
000893999 1112_ $$a12th International Particle Accelerator Conference$$conline event$$d2021-05-24 - 2021-05-28$$gIPAC’21$$wonline event
000893999 245__ $$aNeutrons for Today and Tomorrow - the HBS Project for Compact Accelerator Based Neutron Sources
000893999 260__ $$c2021
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000893999 520__ $$aAccelerator-driven neutron sources with high brilliance neutron provision present an alternative to classical neutron sources of fission reactors and spallation sources to provide scientists with neutrons to probe the structure and dynamics of matter. The Jülich Centre forNeutron Science has started a project to develop, design and demonstrate compact accelerator-driven high-brilliance neutron sources (HBS) as an efficient and cost-effective alternative to current low- and mediumflux reactor and spallation sources. The HBS will consist of a high current proton accelerator, a compact neutron production and moderator unit, and an optimized neutron transport system to provide thermal and cold neutrons with high brilliance. The project offers the construction of a scalable neutron source ranging from university based neutron laboratory to a full user facility with open access and service. Embedded within international collaboration with partners from Germany, Europe and Japan the Jülich HBS project will offer flexible solutions to the scientific. We will describe the current status of the project, the next steps, milestones, and the vision for the future neutron landscape in Europe.
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000893999 9141_ $$y2021
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