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

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

doi:10.1080/00295639.2023.2204184

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

V. Santoro
, K. H. Andersen
, P. Bentley
, M. Bernasconi
, M. Bertelsen
, Y. Beßler
, A. Bianchi
, T. Brys
, D. Campi
, A. Chambon
, V. Czamler
, D. D. Di Julio
, E. Dian
, K. Dunne
, M. J. Ferreira
, P. Fierlinger
, U. Friman-Gayer
, B. T. Folsom
, A. Gaye
, G. Gorini

C. Happe, M. Holl, Y. Kamyshkov, T. Kittelmann, E. B. Klinkby, R. Kolevatov, S. I. Laporte, B. Lauritzen, J. I. Marquez Damian, B. Meirose, F. Mezei, D. Milstead, G. Muhrer, V. Neshvizhevsky, B. Rataj, N. Rizzi, L. Rosta, S. Samothrakitis, H. Schober, J. R. Selknaes, S. Silverstein, M. Strobl, M. Strothmann, A. Takibayev, R. Wagner, P. Willendrup, S. Xu, S. C. Yiu, L. Zanini, O. Zimmer

Chair of Precision Measurements at Extreme Conditions

European Spallation Source (ESS)
Oak Ridge National Laboratory
Universit̀ Degli Studi di Milano-Bicocca
Forschungszentrum Jülich (FZJ)
Technical University of Denmark
Institut Laue-Langevin
Mirrotron Ltd
Center for Energy Research
Stockholm University
University of Tennessee
ESS consultant
Lund University
Paul Scherrer Institut

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

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 Å), very cold neutrons (VCNs) (10 to 120 Å), and ultracold neutrons (UCNs) ((Formula presented.) 500 Å). 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.

Original language	English
Pages (from-to)	31-63
Number of pages	33
Journal	Nuclear Science and Engineering
Volume	198
Issue number	1
DOIs	https://doi.org/10.1080/00295639.2023.2204184
State	Published - Jan 2024

Keywords

Neutron sources
neutron instrument, NNBAR
ultracold neutrons
very cold neutrons

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10.1080/00295639.2023.2204184

Cite this

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, K., Ferreira, M. J., Fierlinger, P., Friman-Gayer, U., Folsom, B. T., Gaye, A., ... Zimmer, O. (2024). The HighNESS Project at the European Spallation Source: Current Status and Future Perspectives. Nuclear Science and Engineering, 198(1), 31-63. https://doi.org/10.1080/00295639.2023.2204184

@article{ea2edae875d74888937e26890f706681,

title = "The HighNESS Project at the European Spallation Source: Current Status and Future Perspectives",

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{\textquoteright}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 {\AA}), very cold neutrons (VCNs) (10 to 120 {\AA}), and ultracold neutrons (UCNs) ((Formula presented.) 500 {\AA}). 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.",

keywords = "Neutron sources, neutron instrument, NNBAR, ultracold neutrons, very cold neutrons",

author = "V. Santoro and Andersen, \{K. H.\} and P. Bentley and M. Bernasconi and M. Bertelsen and Y. Be{\ss}ler and A. Bianchi and T. Brys and D. Campi and A. Chambon and V. Czamler and \{Di Julio\}, \{D. D.\} and E. Dian and K. Dunne and Ferreira, \{M. J.\} and P. Fierlinger and U. Friman-Gayer and Folsom, \{B. T.\} and A. Gaye and G. Gorini and C. Happe and M. Holl and Y. Kamyshkov and T. Kittelmann and Klinkby, \{E. B.\} and R. Kolevatov and Laporte, \{S. I.\} and B. Lauritzen and \{Marquez Damian\}, \{J. I.\} and B. Meirose and F. Mezei and D. Milstead and G. Muhrer and V. Neshvizhevsky and B. Rataj and N. Rizzi and L. Rosta and S. Samothrakitis and H. Schober and Selknaes, \{J. R.\} and S. Silverstein and M. Strobl and M. Strothmann and A. Takibayev and R. Wagner and P. Willendrup and S. Xu and Yiu, \{S. C.\} and L. Zanini and O. Zimmer",

note = "Publisher Copyright: {\textcopyright} 2023 The Author(s). Published with license by Taylor \& Francis Group, LLC.",

year = "2024",

month = jan,

doi = "10.1080/00295639.2023.2204184",

language = "English",

volume = "198",

pages = "31--63",

journal = "Nuclear Science and Engineering",

issn = "0029-5639",

publisher = "Taylor and Francis Ltd.",

number = "1",

}

Santoro, V, Andersen, KH, Bentley, P, Bernasconi, M, Bertelsen, M, Beßler, Y, Bianchi, A, Brys, T, Campi, D, Chambon, A, Czamler, V, Di Julio, DD, Dian, E, Dunne, K, Ferreira, MJ, Fierlinger, P, Friman-Gayer, U, Folsom, BT, Gaye, A, Gorini, G, Happe, C, Holl, M, Kamyshkov, Y, Kittelmann, T, Klinkby, EB, Kolevatov, R, Laporte, SI, Lauritzen, B, Marquez Damian, JI, Meirose, B, Mezei, F, Milstead, D, Muhrer, G, Neshvizhevsky, V, Rataj, B, Rizzi, N, Rosta, L, Samothrakitis, S, Schober, H, Selknaes, JR, Silverstein, S, Strobl, M, Strothmann, M, Takibayev, A, Wagner, R, Willendrup, P, Xu, S, Yiu, SC, Zanini, L & Zimmer, O 2024, 'The HighNESS Project at the European Spallation Source: Current Status and Future Perspectives', Nuclear Science and Engineering, vol. 198, no. 1, pp. 31-63. https://doi.org/10.1080/00295639.2023.2204184

TY - JOUR

T1 - The HighNESS Project at the European Spallation Source

T2 - Current Status and Future Perspectives

AU - Santoro, V.

AU - Andersen, K. H.

AU - Bentley, P.

AU - Bernasconi, M.

AU - Bertelsen, M.

AU - Beßler, Y.

AU - Bianchi, A.

AU - Brys, T.

AU - Campi, D.

AU - Chambon, A.

AU - Czamler, V.

AU - Di Julio, D. D.

AU - Dian, E.

AU - Dunne, K.

AU - Ferreira, M. J.

AU - Fierlinger, P.

AU - Friman-Gayer, U.

AU - Folsom, B. T.

AU - Gaye, A.

AU - Gorini, G.

AU - Happe, C.

AU - Holl, M.

AU - Kamyshkov, Y.

AU - Kittelmann, T.

AU - Klinkby, E. B.

AU - Kolevatov, R.

AU - Laporte, S. I.

AU - Lauritzen, B.

AU - Marquez Damian, J. I.

AU - Meirose, B.

AU - Mezei, F.

AU - Milstead, D.

AU - Muhrer, G.

AU - Neshvizhevsky, V.

AU - Rataj, B.

AU - Rizzi, N.

AU - Rosta, L.

AU - Samothrakitis, S.

AU - Schober, H.

AU - Selknaes, J. R.

AU - Silverstein, S.

AU - Strobl, M.

AU - Strothmann, M.

AU - Takibayev, A.

AU - Wagner, R.

AU - Willendrup, P.

AU - Xu, S.

AU - Yiu, S. C.

AU - Zanini, L.

AU - Zimmer, O.

PY - 2024/1

Y1 - 2024/1

N2 - 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 Å), very cold neutrons (VCNs) (10 to 120 Å), and ultracold neutrons (UCNs) ((Formula presented.) 500 Å). 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.

AB - 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 Å), very cold neutrons (VCNs) (10 to 120 Å), and ultracold neutrons (UCNs) ((Formula presented.) 500 Å). 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.

KW - Neutron sources

KW - neutron instrument, NNBAR

KW - ultracold neutrons

KW - very cold neutrons

UR - https://www.scopus.com/pages/publications/85159124608

U2 - 10.1080/00295639.2023.2204184

DO - 10.1080/00295639.2023.2204184

M3 - Article

AN - SCOPUS:85159124608

SN - 0029-5639

VL - 198

SP - 31

EP - 63

JO - Nuclear Science and Engineering

JF - Nuclear Science and Engineering

IS - 1

ER -

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

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Keywords

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