The Deep Underground Neutrino Experiment (DUNE) at Fermilah is one the most challenging next-generation experiments in the field of neutrino physics. It will feature two detectors for a detailed study of neutrino oscillations using an unprecedentedly intense neutrino beam. The two detectors are a Near Detector located on the Fermilah site, 574 m away from the neutrino generation, and a Far Detector in South Dakota, 1 300 km away. Among the three elements of the Near Detector, designed for the best understanding of the neutrino beam and neutrino interactions on argon, ND-GAr is a High-Pressure gaseous Argon TPC surrounded by a calorimeter, in a 0.5 T magnetic field. The needed magnetic field is transverse to the neutrino beam direction and the solenoid will have a 7 m diameter, 8 m long warm bore. To minimise the material budget along the particle path a thin superconducting solenoid with a partial yoke has been designed. The design of this magnet is tightly bound with the mechanics of the detector, resulting in an unprecedented design. In this paper we present the up-to-date magnetic design and a detailed study for the mechanical integration for this magnet.
A Complete Magnetic Design and Improved Mechanical Project for the DUNE ND-GAr Solenoid Magnet / A. Bersani, A. Bross, B. Caiffi, L. Di Noto, P. Fabbricatore, S. Farinon, F. Ferraro, D. Mitchell, R. Musenich, C. Narug, M. Pallavicini. - In: IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY. - ISSN 1051-8223. - 32:6(2022 Sep), pp. 4500204.1-4500204.4. [10.1109/TASC.2022.3162168]
A Complete Magnetic Design and Improved Mechanical Project for the DUNE ND-GAr Solenoid Magnet
F. Ferraro;
2022
Abstract
The Deep Underground Neutrino Experiment (DUNE) at Fermilah is one the most challenging next-generation experiments in the field of neutrino physics. It will feature two detectors for a detailed study of neutrino oscillations using an unprecedentedly intense neutrino beam. The two detectors are a Near Detector located on the Fermilah site, 574 m away from the neutrino generation, and a Far Detector in South Dakota, 1 300 km away. Among the three elements of the Near Detector, designed for the best understanding of the neutrino beam and neutrino interactions on argon, ND-GAr is a High-Pressure gaseous Argon TPC surrounded by a calorimeter, in a 0.5 T magnetic field. The needed magnetic field is transverse to the neutrino beam direction and the solenoid will have a 7 m diameter, 8 m long warm bore. To minimise the material budget along the particle path a thin superconducting solenoid with a partial yoke has been designed. The design of this magnet is tightly bound with the mechanics of the detector, resulting in an unprecedented design. In this paper we present the up-to-date magnetic design and a detailed study for the mechanical integration for this magnet.
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