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Distinguished Lecturer: Horst Rogalla
Dr. Horst Rogalla was appointed as an IEEE CSC Distinguished Lecturer in 2013. Dr. Rogalla was born in Germany in 1947, studied physics and mathematics in Münster and did his habilitation in Giessen, both in Germany. After 2 years in the group of Prof. Tinkham in Harvard, he accepted in 1987 a professorship in Low-Temperature Physics at the University of Twente in the Netherlands from which he retired recently.
In his time at the University of Twente, he was Director of the Material Science Institute CMO for a number of years and a founding member of the MESA+ micro-/nano-technology institute. In the European Community, he was a member of the board of the Network of Excellence in Superconductivity SCENET and director of the European Network PiShift. He was founding member of the European Society of Applied Superconductivity ESAS and the European Foundry Network FLUXONICS. He also organized major conferences in Superconductivity and Superconducting Electronics and many national and international workshops. Currently, he is Research Professor at the University of Colorado and scientist at NIST.
In his scientific career, he worked on the materials properties of superconductors, their deposition as thin films and their application in Superconducting Electronics. Before the finding of High-Temperature Superconductivity (HTS), he worked on the application of Nb3Ge nanobridge Josephson-junctions in Superconducting Electronics operated in liquid hydrogen. After the finding of HTS, he invented the HTS ramp-type Josephson junction and developed with his coworkers in Twente an HTS integration technique, which allowed to realize superconducting circuits with up to 4 superconducting layers. This technique was successfully applied to HTS Superconducting Electronics devices. Later on, he was involved among others in the development of s-d-wave Josephson junctions based on Nb/YBCO ramp-type junctions, which allowed to realize and apply π- Josephson junctions, in the development of integrated micro-coolers and the application of Nb-based Josephson junctions in highly sensitive magnetic sensors for biomagnetism and gravitation wave detectors.
Currently, he is working on noise thermometry using normal and superconducting electronics and also on arrays of YBCO split-ring resonators for cloa