My research interests are centered on superconducting materials and their engineering applications, with a particular focus on high-temperature superconductors (HTS) and magnesium diboride (MgB₂). My research activity combines materials science, electrical-electronics engineering, and application-oriented performance analysis. In recent years, I have worked on superconducting conductors, especially on critical current density, material optimization, and the feasibility of superconducting cable applications in MRI systems.
These topics are closely aligned with the HTS Modelling Workgroup, as they require a strong understanding of superconducting material behaviour, electromagnetic response, and modelling-supported performance evaluation. My work is especially relevant to the interpretation of experimentally observed superconducting properties through numerical and theoretical approaches, contributing to the reliable design and development of HTS-based systems. I am particularly interested in strengthening the connection between material characterization, numerical modelling, and practical superconducting technology development.
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