SPS Beam Dump Facility Comprehensive Design Study

arXiv: Accelerator Physics Pub Date : 2018-12-11 DOI:10.23731/CYRM-2020-002

C. Ahdida, R. G. Alía, G. Arduini, A. Arnalich, P. Avigni, F. Bardou, M. Battistin, J. Bauche, M. Brugger, J. Busom, M. Calviani, M. Casolino, N. Colonna, L. Dougherty, Y. Dutheil, E. Fornasiere, M. Fraser, L. Gatignon, J. Gall, S. Gilardoni, B. Goddard, J. Grenard, D. Grenier, C. Hessler, R. Jacobsson, V. Kain, K. Kershaw, E. K. Platia, M. Lamont, E. L. Sola, S. Marsh, R. Morton, Y. Muttoni, P. Ninin, J. Osborne, A. Marcone, J. Prieto, F. S. Galan, P. S. Diaz, S. Schadegg, L. Stoel, C. T. Martin, H. Vincke, H. Vincke, F. Velotti, P. Vojtyla, T. Wijnands, O. Williams

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引用次数: 29

Abstract

The proposed Beam Dump Facility (BDF) is foreseen to be located at the North Area of the SPS. It is designed to be able to serve both beam dump like and fixed target experiments. The SPS and the new facility would offer unique possibilities to enter a new era of exploration at the intensity frontier. Possible options include searches for very weakly interacting particles predicted by Hidden Sector models, and flavour physics measurements. In the first instance, exploitation of the facility, in beam dump mode, is envisaged to be for the Search for Hidden Particle (SHiP) experiment. Following the first evaluation of the BDF in 2014-2016, CERN management launched a Comprehensive Design Study over three years for the facility. The BDF study team has since executed an in-depth feasibility study of proton delivery to target, the target complex, and the underground experimental area, including prototyping of key sub-systems and evaluations of the radiological aspects and safety. A first iteration of detailed integration and civil engineering studies have been performed in order to produce a realistic schedule and cost. This document gives a detailed overview of the proposed facility together with the results of the studies, and draws up a possible road map for a three-year Technical Design Report phase, followed by a 5 to 6 year construction phase.

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SPS堆梁设施综合设计研究

拟议的波束倾卸设施预计将设于污水处理厂的北区。它被设计成能够同时服务于波束转储和固定目标实验。SPS和新设施将提供独特的可能性，以进入强度前沿的勘探新时代。可能的选择包括搜索隐藏区域模型预测的非常弱相互作用的粒子，以及味道物理测量。首先，设想在束流转储模式下利用该设施用于搜索隐藏粒子(SHiP)实验。在2014-2016年对BDF进行第一次评估之后，CERN管理层对该设施进行了为期三年的综合设计研究。此后，BDF研究小组对质子输送到目标、目标复合体和地下实验区进行了深入的可行性研究，包括关键子系统的原型设计以及辐射方面和安全性的评估。为了制定一个现实的时间表和成本，已经进行了详细的集成和土木工程研究的第一次迭代。本文件详细概述了拟议的设施以及研究结果，并为三年的技术设计报告阶段和随后5至6年的建设阶段制定了可能的路线图。

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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arXiv: Accelerator Physics

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