Status of the detector design studies for ESS$\nu$SB

Proceedings of The 21st international workshop on neutrinos from accelerators — PoS(NuFact2019) Pub Date : 2020-06-11 DOI:10.22323/1.369.0041

Joochun Park, J. Cederkäll, P. Christiansen, G. Barrand, M. Bogomilov, G. Petkov, R. Tsenov, T. Ekelof, G. Fanourakis, O. Zormpa, G. Gökbulut, A. K. Topaksu, M. Oglakci, B. Kliček, K. Krhač, M. Stipčević

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Abstract

The European Spallation Source Neutrino Super Beam (ESSnuSB) project aims at a discovery of leptonic CP violation with a precise measurement of the CP phase angle. ESSnuSB is characterized by an intense neutrino beam to be produced at ESS by a 5-MW proton beam, and the placement of the far detector at the second oscillation maximum. The aims of the near detector for ESSnuSB are neutrino flux and interaction cross section measurements. For this purpose, designs consisting of a fine-grained tracker and a 1-kiloton water Cherenkov detector are under investigation. On the other hand, the far detector will be a water Cherenkov detector with an estimated fiducial volume of 500 kilotons. The design considerations include an evaluation of the stability of the detector hall and excavation sites in deep underground mines. All of the detector simulations are based on frameworks which involve Geant4. A versatile event display toolkit for visualization and physics outreach activities has been developed.

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ESS$\nu$SB探测器设计现状研究

欧洲散裂源中微子超级束(ESSnuSB)项目旨在通过精确测量CP相位角来发现轻子CP违逆。ESSnuSB的特点是由5mw质子束在ESS产生强烈的中微子束，并将远探测器放置在第二个振荡最大值处。ESSnuSB近距离探测器的目的是测量中微子通量和相互作用截面。为此目的，正在研究由细粒度跟踪器和1千吨水切伦科夫探测器组成的设计。另一方面，远探测器将是一个水切伦科夫探测器，估计基准体积为50千吨。设计考虑了深埋地下矿山探测室和开挖场地的稳定性评价。所有的检测器模拟都基于包含Geant4的框架。开发了一个用于可视化和物理外展活动的多功能事件显示工具包。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of The 21st international workshop on neutrinos from accelerators — PoS(NuFact2019)

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