My research focuses on the electromagnetic modelling of HTS systems, with particular emphasis on AC loss estimation in high-current conductors and superconducting devices for fusion and electrical machines. At ENEA, I routinely employ advanced formulations (e.g., H-,T-A, J-A-ϕ formulations) to model AC losses in complex HTS architectures, including sector-assembled cable-in-conduit conductors (SECAS) for fusion applications and superconducting windings in axial-flux machines. In parallel, I have contributed to the development and application of reduced-order and hybrid modelling approaches aimed at reducing the computational cost of large-scale system simulations. My work combines finite-element modelling, analytical formulations, and experimental validation to support the design and optimization of HTS devices, with particular relevance to fusion magnets and next-generation superconducting technologies.
This article was published on