Rizzi, NicolaFolsom, BenAkhyani, MinaBertelsen, MadsBoeni, PeterBessler, YannickBryn, TomaszChambon, AmaliaCzamler, ValentinLauritzen, BentDamian, Jose Ignacio MarquezNesvizhevsky, ValeryRataj, BlahoslavSamothrakitis, StavrosSantoro, ValentinaShuai, HaStrobl, MarkusStrothmann, MathiasTakibayev, AlanWagner, RichardZanini, LucaZimmer, Oliver2024-05-162024-05-162024-05-162024-03-0410.1016/j.nima.2024.169215https://infoscience.epfl.ch/handle/20.500.14299/207956WOS:001207621800001The European Spallation Source (ESS), currently under construction, is based on a high -brightness, bispectral, low -dimensional moderator placed above a spallation target, intended to initially serve fifteen neutron scattering instruments. Within the upgrade path of ESS, the HighNESS project aims at designing a source complementary to this upper moderator, focusing on delivering a higher intensity and a colder spectrum of neutrons. We have investigated the use of solid ortho-deuterium at 5 K as a source of very cold neutrons (VCNs). This source performs competitively as a high -intensity cold -neutron moderator, while also showing an order -of -magnitude flux increase in the very cold range above 40 & Aring; compared to a liquid deuterium moderator of similar volume and shape, also designed within HighNESS. The long -wavelength performance of the source can be improved further by encasing it in a thin layer of nanodiamonds. The cooling of a solid deuterium moderator placed so close to the spallation target of a high -power neutron source like ESS is very challenging, but may be feasible by augmenting the heat conductivity with the addition of low -density metallic foam structures within the moderator vessel. Such a source could provide unprecedented opportunities in fundamental physics research and neutron scattering using VCNs.TechnologyPhysical SciencesVery Cold NeutronsModeratorsSolid DeuteriumNanodiamondsEuropean Spallation Sourcetext::journal::journal article::research article