Particle physics at the European Spallation Source

H. Abele, A. Alekou, A. Algora, K. Andersen, S. Baeßler, L. Barron-Pálos, J. Barrow, E. Baussan, P. Bentley, Z. Berezhiani, Y. Beßler, A. K. Bhattacharyya, A. Bianchi, J. Bijnens, C. Blanco, N. Blaskovic Kraljevic, M. Blennow, K. Bodek, M. Bogomilov, C. BohmB. Bolling, E. Bouquerel, G. Brooijmans, L. J. Broussard, O. Buchan, A. Burgman, H. Calén, C. J. Carlile, J. Cederkall, E. Chanel, P. Christiansen, V. Cirigliano, J. I. Collar, M. Collins, C. B. Crawford, E. Cristaldo Morales, P. Cupiał, L. D'Alessi, J. I.M. Damian, H. Danared, D. Dancila, J. P.A.M. de André, J. P. Delahaye, S. Degenkolb, D. D. Di Julio, M. Dracos, K. Dunne, I. Efthymiopoulos, T. Ekelöf, L. Eklund, M. Eshraqi, I. Esteban, G. Fanourakis, A. Farricker, E. Fernandez-Martinez, M. J. Ferreira, M. Fertl, P. Fierlinger, B. Folsom, A. Frank, A. Fratangelo, U. Friman-Gayer, T. Fukuda, H. O.U. Fynbo, A. Garcia Sosa, N. Gazis, B. Gålnander, Th Geralis, M. Ghosh, G. Gokbulut, J. J. Gomez-Cadenas, M. Gonzalez-Alonso, F. Gonzalez, L. Halić, C. Happe, P. Heil, A. Heinz, H. Herde, M. Holl, T. Jenke, M. Jenssen, E. Jericha, H. T. Johansson, R. Johansson, T. Johansson, Y. Kamyshkov, A. Kayis Topaksu, B. Kildetoft, K. Kirch, B. Kliček, E. Klinkby, R. Kolevatov, G. Konrad, M. Kozioł, K. Krhač, A. Kupść, Łacny, L. Larizgoitia, C. M. Lewis, M. Lindroos, E. Lychagin, E. Lytken, C. Maiano, P. Marciniewski, G. Markaj, B. Märkisch, C. Marrelli, C. Martins, B. Meirose, M. Mezzetto, N. Milas, D. Milstead, F. Monrabal, G. Muhrer, A. Nepomuceno, V. Nesvizhevsky, T. Nilsson, P. Novella, M. Oglakci, T. Ohlsson, M. Olvegård, A. Oskarsson, T. Ota, J. Park, D. Patrzalek, H. Perrey, M. Persoz, G. Petkov, F. M. Piegsa, C. Pistillo, P. Poussot, P. Privitera, B. Rataj, D. Ries, N. Rizzi, S. Rosauro-Alcaraz, D. Rozpedzik, D. Saiang, V. Santoro, U. Schmidt, H. Schober, I. Schulthess, S. Silverstein, A. Simón, H. Sina, J. Snamina, W. M. Snow, T. Soldner, G. Stavropoulos, M. Stipčević, B. Szybiński, A. Takibayev, Z. Tang, R. Tarkeshian, C. Theroine, J. Thorne, F. Terranova, J. Thomas, T. Tolba, P. Torres-Sánchez, E. Trachanas, R. Tsenov, U. I. Uggerhøj, G. Vankova-Kirilova, N. Vassilopoulos, R. Wagner, X. Wang, E. Wildner, M. Wolke, J. Wurtz, S. C. Yiu, S. G. Yoon, A. R. Young, L. Zanini, J. Zejma, D. Zerzion, O. Zimmer, O. Zormpa, Y. Zou

Research output: Contribution to journalReview articlepeer-review

18 Scopus citations

Abstract

Presently under construction in Lund, Sweden, the European Spallation Source (ESS) will be the world's brightest neutron source. As such, it has the potential for a particle physics program with a unique reach and which is complementary to that available at other facilities. This paper describes proposed particle physics activities for the ESS. These encompass the exploitation of both the neutrons and neutrinos produced at the ESS for high precision (sensitivity) measurements (searches).

Original languageEnglish
Pages (from-to)1-84
Number of pages84
JournalPhysics Reports
Volume1023
DOIs
StatePublished - Jun 15 2023

Funding

J.B. acknowledges support from the Swedish research council grants 2016-05996 and 2019-03779 . L.B. and F.G. acknowledge support from the U.S. Department of Energy (DOE), Office of Science, Office of Nuclear Physics . Grant No. DE-AC05-00OR22725 . The work of Z.B. was supported in part by the MIUR research grant “The Dark Universe: A Synergic Multimessenger Approach” PRIN 2017 No. 2017X7X85K , and in part by the SRNSF . J.I.C. acknowledges support by the European Research Council under Grant Agreement No. 101055120-ESSCEvNS ERC-2021-ADG . V.C. acknowledges support from the U.S. Department of Energy Grant No. DE-FG02-00ER41132 . M.G.-A. acknowledges support from Generalitat Valenciana (Spain) (Grants No. CIDEGENT/2018/014 and ASFAE/2022/009 ) and by MCIN/AEI/10.13039/501100011033 (Grant No. PID2020-114473GB-I00 ). L.L. is supported by the predoctoral training program of non-doctoral research personnel of the Department of Education of the Basque Government, Spain . L.L. and F.M. are also supported by the European Research Council (ERC) under Grant Agreement No. 101039048-GanESS and the Severo Ochoa Program grant CEX2018-000867-S . V.N. acknowledges support from L’Agence nationale de la recherche, France , ANR-20-CE08-0034 . D. M. acknowledges support from the Swedish Research Council under grant number 2019-04475 and the Swedish Research Council’s Council for Research infrastructure under grant number 2021-06231 . T.O. acknowledges support from the Swedish Research Council (Vetenskapsrådet) , Contract No. 2017-03934 . A.S.P. acknowledges support from the Marie Skłodowska-Curie grant agreement No. 101026628 . V.S. and D.M. acknowledge support from the HighNESS project at the European Spallation Source . HighNESS is funded by the European Framework for Research and Innovation Horizon 2020 , under grant agreement 951782 .

FundersFunder number
European Framework for Research and Innovation Horizon 2020951782
Severo Ochoa ProgramCEX2018-000867-S
U.S. Department of Energy
Office of Science
Nuclear PhysicsDE-AC05-00OR22725
H2020 Marie Skłodowska-Curie Actions101026628
European Research CouncilDE-FG02-00ER41132, 101055120-ESSCEvNS ERC-2021-ADG
Agence Nationale de la RechercheANR-20-CE08-0034, 2019-04475, 2021-06231
Eusko Jaurlaritza101039048-GanESS
Generalitat ValencianaMCIN/AEI/10.13039/501100011033, ASFAE/2022/009, CIDEGENT/2018/014, PID2020-114473GB-I00
Ministero dell’Istruzione, dell’Università e della Ricerca2017X7X85K
Vetenskapsrådet2016-05996, 2017-03934, 2019-03779
Shota Rustaveli National Science Foundation

    Keywords

    • ESS
    • ESSnuSB
    • NNBAR
    • Neutrons
    • nEDM

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