Ernst Eckhard Koch Prize and Innovation Award Synchrotron Radiation
Martin Bluschke (MPI for Solid State Research, TU Berlin) receives the Ernst Eckhard Koch Prize from Mathias Richter for his outstanding dissertation. © Screenshot
The prize for innovation in synchrotron research went to Guiseppe Sansone, Luca Giannessi, Carlo Callegari and Kevin Prince. © Screenshot
This year, the Friends of HZB awarded the Ernst Eckhard Koch Prize to Dr. Martin Bluschke (MPI for Solid State Research and TU Berlin) for his outstanding doctoral thesis. The European Innovation Award for Synchrotron Radiation went to a team of four physicists for their work on the FERMI free electron laser at the Elettra synchrotron source in Trieste. The award ceremony took place at this year's HZB user meeting, which had to be held digitally this year.
The award ceremony was well attended with 197 spectators. The chairman of the Friends of HZB, Prof. Dr. Mathias Richter, led the award ceremony on screen and distributed hand-drawn bouquets of flowers as well as the award certificate. The prize committee had read the submitted proposals with great pleasure this year, he reported.
Ernst Eckhard Koch Prize 2020
The Ernst Eckhard Koch Prize went to Dr. Martin Bluschke, Max Planck Institute for Solid State Research in Stuttgart, who completed his doctorate in 2019 at the Technical University of Berlin. The title of his dissertation is: "Resonant x ray scattering studies of collective electronic states in cuprates and nickelates controlled by isovalent chemical substitution and epitaxial integration". Bluschke has been studying so-called collective states in solids at BESSY II, which are related to the phenomenon of superconductivity.
"Mr. Bluschke's dissertation reveals a deep understanding of physics. The numerous results are published to a high standard, which is also reflected by the number of citations," Richter quoted from the prize committee. Bluschke will continue his research at the University of British Columbia in Canada.
Innovation Award Synchrotron Radiation 2020
The Innovation Award Synchrotron Radiation 2020 went to Prof. Dr. Guiseppe Sansone (University of Freiburg), Dr. Luca Giannessi (Istituto Nazionale di Fisica Nucleare, Frascati, Italy), Dr. Carlo Callegari and Prof. Dr. Kevin Prince (Elettra, Trieste, Italy) for their achievements in the development and application of innovative investigation methods exploiting the radiation emitted by seeded free electron lasers at the FERMI free electron laser at Elettra in Trieste. The prize committee acknowledged "this development is of utmost importance for the future" and "concerns ground-braking experiments even on the attosecond scale". The Innovation Award Synchrotron Radiation is endowed with 3000 Euros and is sponsored by SPECS GmbH and BESTEC GmbH.
- Green fabrication of hybrid materials as highly sensitive X-ray detectorsNew bismuth-based organic-inorganic hybrid materials show exceptional sensitivity and long-term stability as X-ray detectors, significantly more sensitive than commercial X-ray detectors. In addition, these materials can be produced without solvents by ball milling, a mechanochemical synthesis process that is environmentally friendly and scalable. More sensitive detectors would allow for a reduction in the radiation exposure during X-ray examinations.
- Electrical energy storage: BAM, HZB, and HU Berlin plan joint Berlin Battery LabThe Federal Institute for Materials Research and Testing (BAM), the Helmholtz-Zentrum Berlin (HZB), and Humboldt University of Berlin (HU Berlin) have signed a memorandum of understanding (MoU) to establish the Berlin Battery Lab. The lab will pool the expertise of the three institutions to advance the development of sustainable battery technologies. The joint research infrastructure will also be open to industry for pioneering projects in this field.
- BESSY II: Insight into ultrafast spin processes with femtoslicingAn international team has succeeded at BESSY II for the first time to elucidate how ultrafast spin-polarised current pulses can be characterised by measuring the ultrafast demagnetisation in a magnetic layer system within the first hundreds of femtoseconds. The findings are useful for the development of spintronic devices that enable faster and more energy-efficient information processing and storage. The collaboration involved teams from the University of Strasbourg, HZB, Uppsala University and several other universities.