Tag: INFN
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Real-Time State Estimation and Quench Prevention in Superconducting Magnets
This thesis focuses on the development of a real-time state estimation system for superconducting magnets, aimed at detecting early signs of instability and preventing quench events. The activity will investigate the use of advanced estimation techniques to reconstruct the internal electro-thermal state of a superconducting coil from available sensor measurements. The student will develop numerical…
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3D-Printed and Topology-Optimized Structures for Superconducting Magnets
This thesis focuses on the design, structural analysis and topology optimization of advanced components for superconducting tapes and superconducting magnets. The activity will explore how additive manufacturing can be used to create lightweight, mechanically efficient and highly customized support structures able to operate under the demanding conditions of high-field superconducting systems. The student will investigate…
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Mechanical Design of Support Structures for High-Field Superconducting Magnets
This thesis focuses on the mechanical design and numerical assessment of support structures for next-generation high-field superconducting magnets, operating in the 14–20 T range within CERN-related accelerator magnet development. The thesis will be carried out in collaboration with INFN, providing the student with direct exposure to advanced research activities in superconducting magnet technologies. These systems…