CERN Accelerating science

SHiP Internal Notes

უკანასკნელი დამატებები:
2024-12-18
16:14
Estimation of $\mu$ combinatorial background at ECN3 / Petridis, Konstantinos (University of Bristol (GB)) ; Marshall, Alex (University of Bristol (GB)) /SHiP Collaboration
CERN-SHiP-INT-2024-002.- Geneva : CERN, 2024 Draft note on combinatorial background: PDF;

დეტალური ჩანაწერი - მსგავსი ჩანაწერები
2024-10-01
17:19
Signal and background studies for ECN3 / Bezshyiko, Iaroslava (University of Zurich (CH)) ; Lantwin, Oliver (University Federico II and INFN, Naples (IT)) ; Ovchynnikov, Maksym (CERN) ; Reghunath, Anupama (Humboldt University of Berlin (DE)) /SHiP Collaboration
In this report, we summarize physics studies performed for the SHiP experiment: neutrino deep-inelastic scattering background, muon deep-inelastic scattering background, and sensitivity to new physics particles. The report contains research work carried out up to summer 2024. [...]
CERN-SHiP-INT-2024-001.- Geneva : CERN, 2024 Note describing signal and background studies for ECN3: PDF;

დეტალური ჩანაწერი - მსგავსი ჩანაწერები
2022-05-17
15:15
Full simulation and performance of a standard iron warm muon shield with tuned return yoke / Ferro-Luzzi, Massimiliano (CERN) /SHiP collaboration
A normal-conducting magnet design of the muon shield has been proposed as an alternative to the current baseline design based on grain-oriented steel. It is based on warm magnets made with standard iron and the return yoke legs are tuned (interleaved with non-magnetic steel or brass) such as to optimize its effect on low momentum muons. [...]
CERN-SHiP-INT-2022-007.- Geneva : CERN, 2022 main document 3 aug 2022: PDF;

დეტალური ჩანაწერი - მსგავსი ჩანაწერები
2022-05-12
08:53
A possible yokeless superconducting dipole for the SHiP muonshield / Koratzinos, m (Massachusetts Inst. of Technology (US)) ; Van Herwijnen, Eric (National University of Science and Technology "MISIS" (RU)) /SHiP collaboration
We describe the use of a superconducting Canted Cosine Theta (CCT) magnet as an alternative for the baseline warm magnet for the muon shield. The conductor of the CCT magnet ensures an excellent field quality with a gentle return field. [...]
CERN-SHiP-INT-2022-006.- Geneva : CERN, 2022 Fulltext: PDF;

დეტალური ჩანაწერი - მსგავსი ჩანაწერები
2022-05-11
15:26
Preliminary exploration of a superconducting muon shield / Ferro-Luzzi, Massimiliano (CERN) /SHiP collaboration
The current baseline design of the muon shield is based on warm magnets. In contrast, this note reports on muon background simulation results of a preliminary exploration into the possibility to use superconducting magnets. [...]
CERN-SHiP-INT-2022-005.- Geneva : CERN, 2022 main document 3 aug 2022: PDF;

დეტალური ჩანაწერი - მსგავსი ჩანაწერები
2022-05-11
15:16
Normal-conducting muon shield with standard yoke iron and tuned return yoke ; first performance assessment / Wertelaers, Piet (CERN) /SHiP collaboration
A muon deflecting complex with only warm magnets has always been the baseline. But here, we have a first look at a concept based on traditional engineering, i.e [...]
CERN-SHiP-INT-2022-004.- Geneva : CERN, 2022 Fulltext: PDF;

დეტალური ჩანაწერი - მსგავსი ჩანაწერები
2022-05-11
15:14
Muon shield concept based on superconducting magnet and tuned iron return yoke / Wertelaers, Piet (CERN) /SHiP collaboration
Deterministic muon tracing seems to indicate that good deflection performance can be obtained from a train of magnetized Hadron Stopper and superconducting Main Magnets, the second of which is of reversed polarity. However, the wide range of low-momentum muon start rapidities, forces us into a wide and high design..
CERN-SHiP-INT-2022-003.- Geneva : CERN, 2022 Fulltext: PDF;

დეტალური ჩანაწერი - მსგავსი ჩანაწერები
2022-01-19
12:48
Deterministic trace computation of charged particle in three dimensions / Wertelaers, Piet (CERN) /SHiP collaboration
Establishing the curved trajectory of a charged particle in a magnetic field, becomes a stochastic affair as soon as the particle interacts with material, and then, Monte Carlo simulation is the traditional computational method. Here, we develop a deterministic competitor. [...]
CERN-SHiP-INT-2022-002.- Geneva : CERN, 2022 CERN-SHiP-INT-2022-002_version2022-03-01: PDF; CERN-SHiP-INT-2022-002_version2024-08-15: PDF;

დეტალური ჩანაწერი - მსგავსი ჩანაწერები
2022-01-12
12:21
How the distance of the cavern walls affects the background rates / Ferro-Luzzi, Massimiliano (CERN) /SHiP collaboration
The muon shield of the Beam Dump Facility splits the spurious muons from the target into two prominent plumes left and right of the SHiP experiment. A large fraction of these muons interact with the cavern walls. [...]
CERN-SHiP-INT-2022-001.- Geneva : CERN, 2022 main document: PDF;

დეტალური ჩანაწერი - მსგავსი ჩანაწერები
2021-11-24
12:23
Interpolating magnetic field data onto a three-dimensional regular grid / Wertelaers, Piet (CERN) /SHiP collaboration
Magnetic field data do not always exist on the exact locations of the regular grid used in physics simulations, in which case interpolation must be performed. The “general” method makes no a priori assumptions of the nature of the primary data ; they can be measurements. [...]
CERN-SHiP-INT-2021-005.- Geneva : CERN, 2021 update asked by Piet W.: PDF;

დეტალური ჩანაწერი - მსგავსი ჩანაწერები