The European Spallation Source neutrino Super Beam Conceptual Design   Report

A. Alekou; E. Baussan; A.K. Bhattacharyya; N. Blaskovic Kraljevic; M.; Blennow; M. Bogomilov; B. Bolling; E. Bouquerel; O. Buchan; A. Burgman; C.J.; Carlile; J. Cederkall; P. Christiansen; M. Collins; E. Cristaldo Morales; P.; Cupia{\l}; L. D'Alessi; H. Danared; D. Dancila; J. P. A. M. de Andr\'e; J.P.; Delahaye; M. Dracos; I. Efthymiopoulos; T. Ekel\"of; M. Eshraqi; G.; Fanourakis; A. Farricker; E. Fernandez-Martinez; B. Folsom; T. Fukuda; N.; Gazis; B. Galnander; Th. Geralis; M. Ghosh; G. Gokbulut; L. Hali\'c; M.; Jenssen; A. Kayis Topaksu; B. Kildetoft; B. Kli\v{c}ek; M. Kozio{\l}; K.; Krha\v{c}; {\L}. {\L}acny; M. Lindroos; C. Maiano; C. Marrelli; C. Martins,; M. Mezzetto; N. Milas; M. Oglakci; T. Ohlsson; M. Olvegard; T. Ota; J. Park,; D. Patrzalek; G. Petkov; P. Poussot; R. Johansson; S. Rosauro-Alcaraz; D.; Saiang; B. Szybi\'nski; J. Snamina; G. Stavropoulos; M. Stip\v{c}evi\'c; R.; Tarkeshian; F. Terranova; J. Thomas; T. Tolba; E. Trachanas; R. Tsenov; G.; Vankova-Kirilova; N. Vassilopoulos; E. Wildner; J. Wurtz; O. Zormpa; Y. Zou

arXiv:2206.01208·hep-ex·November 30, 2022

The European Spallation Source neutrino Super Beam Conceptual Design Report

A. Alekou, E. Baussan, A.K. Bhattacharyya, N. Blaskovic Kraljevic, M., Blennow, M. Bogomilov, B. Bolling, E. Bouquerel, O. Buchan, A. Burgman, C.J., Carlile, J. Cederkall, P. Christiansen, M. Collins, E. Cristaldo Morales, P., Cupia{\l}, L. D'Alessi, H. Danared, D. Dancila

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TL;DR

This report details the conceptual design of the ESS neutrino Super Beam, leveraging the European Spallation Source's infrastructure to enable high-sensitivity CP violation studies in neutrino oscillations at the second oscillation maximum.

Contribution

It introduces a novel design for a high-power neutrino beam facility using ESS infrastructure, including upgrades for proton pulse compression and a large-scale detector to enhance CP violation measurements.

Findings

01

Enhanced sensitivity to CP violation at the second oscillation maximum.

02

Feasibility of using ESS proton linac upgrades for neutrino production.

03

Potential for significant physics discoveries with the proposed setup.

Abstract

This conceptual design report provides a detailed account of the European Spallation Source neutrino Super Beam (ESS $ν$ SB) feasibility study. This facility has been proposed after the measurements reported in 2012 of a relatively large value of the neutrino mixing angle $θ_{13}$ , which raised the possibility of observing potential CP violation in the leptonic sector with conventional neutrino beams. The measured value of $θ_{13}$ also privileges the $2^{n d}$ oscillation maximum for the discovery of CP violation instead of the more typically studied $1^{s t}$ maximum. The sensitivity at this $2^{n d}$ oscillation maximum is about three times higher than at the $1^{s t}$ one, which implies a reduced influence of systematic errors. Working at the $2^{n d}$ oscillation maximum requires a very intense neutrino beam with an appropriate energy. The world's most intense pulsed…

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