Author:
Zanini Luca,Akhyani Mina,Bertelsen Mads,Bessler Yannick,Bryś Tomasz,Chambon Amalia,Marquez Damian José Ignacio,Folsom Ben,Nesvizhevsky Valery,Rataj Blahoslav,Rizzi Nicola,Santoro Valentina,Shuai Ha,Strothmann Mathias,Takibayev Alan,Wagner Richard,Zimmer Oliver,
Abstract
The main, high-brightness neutron source for ESS is based on the low-dimensional moderator concept, and will serve the initial suite of neutron scattering instruments. In the HighNESS project several design options have been identified and investigated for a second source for ESS, intended to be complementary to the primary one. The emphasis of this project, completed in September 2023, was on the design of high-intensity sources, delivering Cold, Very Cold (VCN), and Ultra-Cold Neutrons (UCN). Remarkable results include: a cold moderator based on liquid deuterium capable of delivering an intensity close to a factor 10 greater than the ESS upper moderator; a VCN moderator based on solid deuterium at 5 K, surrounded by nanodiamond layers, delivering brightness above 40 Å an order of magnitude higher than a conventional cold moderator placed in the same location; and several design options for UCN sources based on the use of superfluid helium and solid deuterium. The use of these new sources would have a major impact on fundamental physics experiments and neutron scattering techniques. We investigate the possible impact that these concepts can have for compact sources, with particular emphasis on VCN.
Reference15 articles.
1. Santoro V. et al., HighNESS conceptual design report, arXiv:2309.17333v1, 2023, https://doi.org/10.48550/arXiv.2309.17333.
2. Design of the cold and thermal neutron moderators for the European Spallation Source
3. Backman F. et al., The development of the NNBAR experiment, J. of Instrumentation, Volume 17, 2022, https://doi.org/10.1088/1748-0221/17/10/P10046.
4. A new experimental limit on neutron-antineutron oscillations
5. Carpenter J. M., Micklich B. J., Proceedings of the workshop on applications of a very cold neutron source, Tech. Rep., Argonne National Lab. (ANL), Argonne, IL (United States) (2005).