All BESSY II instruments reconnected to the network
© HZB / D. Laubner
Thirteen months ago, HZB fell victim to a criminal cyberattack that also took BESSY II light source and the instruments in the experimental hall out of operation. BESSY II was up and running again after just three weeks and the instruments were gradually put back into operation. Now HZB can report some good news: All experimental stations are again integrated into the new IT networks and can record data.
In a task force led by Andreas Jankowiak and Jens Viefhaus, a team led by Ruslan Ovsyannikov succeeded in implementing a new IT infrastructure and a resilient network architecture. This project is now to be firmly established and perpetuated at HZB. The aim is to achieve the full functionality of the BESSY-II user service, to establish new possibilities for remote experiments and better data management.
The project also benefits from the successes of an international cooperation that is developing a new basis for experimental data management at light sources and small labs called Bluesky. With Bluesky, a new type of experimental data acquisition system is being introduced throughout BESSY II (under the leadership of HZB employees William Smith and Simone Vadilonga). It is already in operation at several BESSY beamlines. The introduction of Bluesky at BESSY II is a milestone and has attracted much attention in the scientific community. Several European accelerators are interested in the novel data control system.
HZB is also participating in the Helmholtz project ROCK-IT (Remote, Operando Controlled, Knowledge-driven, and IT-based) to meet the future challenges of data management and the IT structures of large-scale scientific research facilities. The aim is to develop all necessary tools for the automation and remote access of in-situ and operando experiments at synchrotrons. Simplified access to the experiments is a central concern of the user community.
- Largest magnetic anisotropy of a molecule measured at BESSY IIAt the Berlin synchrotron radiation source BESSY II, the largest magnetic anisotropy of a single molecule ever measured experimentally has been determined. The larger this anisotropy is, the better a molecule is suited as a molecular nanomagnet. Such nanomagnets have a wide range of potential applications, for example, in energy-efficient data storage. Researchers from the Max Planck Institute for Kohlenforschung (MPI KOFO), the Joint Lab EPR4Energy of the Max Planck Institute for Chemical Energy Conversion (MPI CEC) and the Helmholtz-Zentrum Berlin were involved in the study.
- Ernst Eckhard Koch Prize and Synchrotron Radiation Innovation AwardThis year, the Friends of Helmholtz-Zentrum Berlin (Freundeskreis des HZB e. V.) awarded the Ernst Eckhard Koch Prize to Dr. Dieter Skroblin of the Technische Universität Berlin for his outstanding doctoral thesis. The European Innovation Award Synchrotron Radiation went to Dr. Manfred Faubel from the Max Planck Institute for Dynamics and Self-Organization in Göttingen and Dr. Bernd Winter from the Fritz Haber Institute in Berlin. The award ceremony took place at this year's HZB user meeting.
- Modernisation of BESSY II+ light sourceThe focus of the User Meeting 2024: Helmholtz-Zentrum Berlin (HZB) presents the BESSY II+ upgrade programme. It enables world-class research at BESSY II to be further expanded and new concepts to be tested with regard to the successor source BESSY III.