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Report number CERN-PBC-CONF-2024-005
Title Beam loss studies for the P42 beamline at the CERN SPS North Area
Author(s) Dyks, Luke Aidan (University of Oxford (GB)) ; Ahdida, Claudia (CERN) ; Banerjee, Dipanwita (CERN) ; Baratto Roldan, Anna (CERN) ; Bernhard, Johannes (CERN) ; Brugger, Markus (CERN) ; Charitonidis, Nikolaos (CERN) ; Fraser, Matthew Alexander (CERN) ; Gatignon, Lau (Lancaster University (GB)) ; Goillot, Alice Marie (CERN) ; Jebramcik, Marc Andre (CERN) ; Nowak, Elzbieta (AGH University of Krakow (PL)) ; Mazzola, Giuseppe (CERN) ; Metzger, Fabian (CERN) ; Murphy, Rob (University of London (GB)) ; Nevay, Laurence James (CERN) ; Parozzi, Elisabetta Giulia (Universita & INFN, Milano-Bicocca (IT)) ; Rae, Bastien (CERN) ; Schuh-Erhard, Silvia (CERN) ; Stummer, Florian Wolfgang (University of London (GB)) ; Van Dijk, Maarten (CERN)
Publication 2024
Imprint 2024-06-19
Number of pages 4
Published in: JACoW IPAC2024 (2024) TUPC73
Presented at 15th International Particle Accelerator Conference (IPAC 2024)
DOI 10.18429/JACoW-IPAC2024-TUPC73
Subject category Accelerators and Storage Rings
Study Physics Beyond Colliders
Project Beam Dump Facility ; Conventional Beams
Keywords Physics Beyond Colliders
Abstract The P42 beamline transports 400 GeV protons from the CERN SPS between the T4 and T10 targets. A secondary particle beam is produced at the T10 target and transported along the K12 beamline to the experimental cavern ECN3, presently housing the NA62 experiment. In the context of the Physics Beyond Colliders (PBC) study, an increase of the beam intensity in P42 has been considered to provide protons to a future high-intensity fixed-target experiment in ECN3. For both its present usage and especially for the intensity upgrade, it is important to reduce beam losses to a minimum to decrease radiation levels and protect equip- ment. In this study, simulations of P42 with the Monte Carlo software BDSIM, are used to demonstrate that beam losses in P42 are primarily driven by particle-matter interactions in material intercepted by the beam. The distribution of the simulated losses is compared to doses measured along the beamline in radiation protection surveys and beam loss monitors. Future mitigation strategies to reduce beam losses are then discussed and evaluated.
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 Element opprettet 2024-06-19, sist endret 2024-10-08


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