This course provides an in-depth treatment of the latest experimental and theoretical topics in quantum sciences and technologies, including for example quantum sensing, quantum optics, cold atoms, th
Introduction to superconducting electronic applications, including the fundamental phenomenology of superconductors. Key applications and their material requirements: a) magnets; b) quantum metrology;
Theoretical and practical expertise is gained about the microscopy of spin structures and magnetic configuiations down to the sub-nm
length and sub-ns time scales such as transmission electron microsc
Introduction to superconducting electronic applications and their material requirements, including the fundamental phenomenology of superconductors. Key applications and their material requirements: a
The program of the School aims al providing the students with the main concepts and methodologies for developing a numerical model of superconducting devices. The students will learn numerical modelli
