Professional Experience

Ioannis A. Daglis is a Professor of the Department of Physics at the National and Kapodistrian University of Athens, the oldest university in Greece. Prof. Daglis graduated from the Physics Department of the Aristotle University of Thessaloniki. He worked on his PhD in Space Plasma Electrodynamics at the Max Planck Institute for Solar System Research (Germany) and the Johns Hopkins University Applied Physics Laboratory (USA) under the supervision of Prof. Emmanuel T. Sarris and the late Prof. Sir W. Ian Axford, and received a PhD degree in Electrical Engineering from the Democritus University of Thrace in 1991. Prof. Daglis is Editor-in-Chief of Annales Geophysicae (the official journal of the European Geosciences Union in the field of Solar Terrestrial Physics) since 2014, National Correspondent of Greece for IAGA (International Association of Geomagnetism and Aeronomy) since 2013; and Delegate of Greece to the Council of the European Space Agency, since 2013. He has published 90+ refereed papers and has given 35 invited talks and 250 contributed papers at 120+ conferences. The impact of his published work is reflected in 1900 citations and an h-index of 25 in ISI (3300 citations and h-index of 31 in GoogleScholar). He has edited and co-authored 4 textbooks, one of which (Space Storms and Space Weather Hazards, 2001) is "recommended teaching material" for Space Sciences by the UN's Office for Outer Space.

Research Interests

He currently leads the ESA studies HERMES (Hellenic Evolution of Radiation data processing and Modelling of the Environment in Space), which improves and combines radiation data processing routines and environment modelling results to enable more accurate evaluation of the radiation environment in space, and SRREMs (Slot Region Radiation Environment Models), which develops models of the radiation belts with an emphasis to the slot region. In 2012-2014 he led the European Union FP7-Space programme MAARBLE, which shed light on how electromagnetic waves in geospace influence the dynamic evolution of the Earth's radiation belts.