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The HighNESS Project at the European Spallation Source : Current Status and Future Perspectives

Authors :
Santoro, V.
Andersen, K. H.
Bentley, P.
Bernasconi, M.
Bertelsen, M.
Bessler, Y.
Bianchi, A.
Brys, T.
Campi, D.
Chambon, A.
Czamler, V.
Di Julio, D. D.
Dian, E.
Dunne, Katherine
Ferreira, M. J.
Fierlinger, P.
Friman-Gayer, U.
Folsom, B. T.
Gaye, A.
Gorini, G.
Happe, C.
Holl, M.
Kamyshkov, Y.
Kittelmann, T.
Klinkby, E. B.
Kolevatov, R.
Laporte, S. I.
Lauritzen, B.
Damian, J. I. Marquez
Meirose, Bernhard
Mezei, F.
Milstead, David A.
Muhrer, G.
Neshvizhevsky, V.
Rataj, B.
Rizzi, N.
Rosta, L.
Samothrakitis, S.
Schober, H.
Selknaes, J. R.
Silverstein, Samuel B.
Strobl, M.
Strothmann, M.
Takibayev, A.
Wagner, R.
Willendrup, P.
Xu, S.
Yiu, S. C.
Zanini, L.
Zimmer, O.
Santoro, V.
Andersen, K. H.
Bentley, P.
Bernasconi, M.
Bertelsen, M.
Bessler, Y.
Bianchi, A.
Brys, T.
Campi, D.
Chambon, A.
Czamler, V.
Di Julio, D. D.
Dian, E.
Dunne, Katherine
Ferreira, M. J.
Fierlinger, P.
Friman-Gayer, U.
Folsom, B. T.
Gaye, A.
Gorini, G.
Happe, C.
Holl, M.
Kamyshkov, Y.
Kittelmann, T.
Klinkby, E. B.
Kolevatov, R.
Laporte, S. I.
Lauritzen, B.
Damian, J. I. Marquez
Meirose, Bernhard
Mezei, F.
Milstead, David A.
Muhrer, G.
Neshvizhevsky, V.
Rataj, B.
Rizzi, N.
Rosta, L.
Samothrakitis, S.
Schober, H.
Selknaes, J. R.
Silverstein, Samuel B.
Strobl, M.
Strothmann, M.
Takibayev, A.
Wagner, R.
Willendrup, P.
Xu, S.
Yiu, S. C.
Zanini, L.
Zimmer, O.
Publication Year :
2024

Abstract

The European Spallation Source (ESS), presently under construction in Lund, Sweden, is a multidisciplinary international laboratory that, once completed at full specifications, will operate the world's most powerful pulsed neutron source. Supported by a 3 M Euro Research and Innovation Action within the European Union Horizon 2020 program, a design study (HighNESS) is now underway to develop a second neutron source located below the spallation target. Compared to the first source, which is located above the spallation target and designed for high cold and thermal brightness, the new source is being optimized to deliver higher intensity and a shift to longer wavelengths in the spectral regions of cold neutrons (CNs) (2 to 20 & Aring;), very cold neutrons (VCNs) (10 to 120 & Aring;), and ultracold neutrons (UCNs) (> 500 & Aring;). The second source consists of a large liquid deuterium moderator to deliver CNs and serve secondary VCN and UCN sources, for which different options are under study. These new sources will boost several areas of condensed matter research and will provide unique opportunities in fundamental physics. The HighNESS project is now entering its last year, and we are working toward the Conceptual Design Report of the ESS upgrade. In this paper, results obtained in the first 2 years, ongoing developments, and future perspectives are described.

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1400006023
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1080.00295639.2023.2204184