Status of the ENUBET Project
F. Terranova*,
F. Acerbi,
G. Ballerini,
A. Berra,
M. Bonesini,
A. Branca,
C. Brizzolari, G. Brunetti, M. Calviani, S. Capelli, S. Carturan, M.G. Catanesi, S. Cecchini, N. Charitonidis, F. Cindolo, G. Collazuol, E. Conti, F. Dal Corso, G. De Rosa, C. Delogu, A. Falcone, A. Gola, R.A. Intonti, C. Jollet, V. Kein, B. Klicek, Y.G. Kudenko, M. Laveder, A. Longhin, E. Lutsenko, L. Ludovici, L. Magaletti, G. Mandrioli, A. Margotti, V. Mascagna, N. Mauri, L. Meazza, A. Meregaglia, M. Mezzetto, M. Nessi, A. Paoloni, M. Pari, E. Parozzi, L. Pasqualini, G. Paternoster, L. Patrizii, M. Pozzato, M. Prest, F. Pupilli, E. Radicioni, C. Riccio, A.C. Ruggeri, C. Scian, G. Sirri, M. Soldani, M. Stipcevic, M. Tenti, M. Torti, E. Vallazza, F. Velotti, M. Vesco and L. Votanoet al. (click to show)*: corresponding author
Published on:
June 11, 2020
Abstract
The ENUBET Collaboration is designing the first ``monitored neutrino beam'': a beam with an unprecedented control of the flux, energy and flavor of neutrinos at source. In particular, ENUBET monitors the $\nu_e$ production mostly by the detection of large angle positrons from three body semileptonic decays of kaons: $K^+ \rightarrow e^+ \pi^0 \nu_e$. In this paper, we present the status of the Project and the 2018-2019 advances on proton extraction, transfer line, particle identification in the decay tunnel and beam performance.
DOI: https://doi.org/10.22323/1.369.0121
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