A view of the experimental hall at BESSY II.
© S. Steinbach / HZB
40 years of research with synchrotron light in Berlin
Outside view of BESSY II light source. The significant facility is built like a ring with a circumference of 240 m.
© V. Mai / HZB
Scientists work at nearly 50 stations in the experimental hall.
© S. Steinbach / HZB
This is how BESSY I looked like 40 years ago.
© HZB
The first light source was built 1979-1981 and started operation in 1982.
© HZB
BESSY I was located in Wilmersdorf and brought many scientists from all over the world. After 16 years BESSY II a new facility took over.
© HZB
Press release _ Berlin, 14 September: For decades, science in Berlin has been an important driver of innovation and progress. Creative, talented people from all over the world come together here and develop new ideas from which we all benefit as a society. Many discoveries – from fundamental insights to marketable products – are made by doing research with synchrotron light. Researchers have had access to this intense light in Berlin for 40 years. It inspires many scientific disciplines and is an advantage for Germany.
In September 1982, the first electron storage ring officially went into operation in Berlin-Wilmersdorf under the name BESSY (Berliner Elektronenspeicherring-Gesellschaft für Synchrotronstrahlung). In order to create this coveted synchrotron light, electrons are accelerated to near light speed in a circle. As they race around at this speed they emit special light, which scientists can use to look inside their samples. The successor facility in Berlin-Adlershof, BESSY II, is also based on this principle. It produced its first light beam in 1998 and is operated by Helmholtz-Zentrum Berlin (HZB). Presently, the facility receives around 2700 visits per year from guest researchers from everywhere in the world. It will be celebrating its 25th anniversary in September 2023.
Energy research is the driving force
Since the generation of the first beam, the possibilities of researching with synchrotron light have expanded considerably. Perhaps the most important experiments being done today are those for researching the materials we need for an efficient energy supply. Researchers at BESSY II are developing solar cells and materials for powerful batteries, for example. Also literally in the focus of the light at BESSY II are new thin-film catalysts for producing green hydrogen. Synchrotron light is furthermore perfectly suited to researching materials used in low-energy information technologies.
Synchrotron light attracts talents and is a source of inspiration
In the last 40 years, our societal challenges have changed radically. In response, the means for performing experiments at BESSY II have been continually adapted and upgraded. This has always been done in close collaboration with partners and users from all over the world. As these changes unfold, synchrotron light remains a source of inspiration and brings together people from all different disciplines.
“Interesting experimental opportunities attract creative talents and bring a boost to fields and research communities. We see this currently in the research into catalysts: synchrotron light is essential for developing industrially relevant catalysts ‘made in Berlin’ for the green hydrogen economy,” says the scientific director of HZB, Prof. Bernd Rech.
40 years of accelerator know-how in Berlin
The operation of the BESSY II accelerator is highly complex. For decades, Berlin and HZB have succeeded in training and retaining the necessary engineering and scientific experts. So that Germany and the world continue to benefit from synchrotron light over the next decade and beyond, the accelerator specialists of HZB are collaborating intensively with partners on the concept for a successor source, BESSY III.
Visits for media representatives
We cordially invite representatives of the media to visit the accelerator BESSY II and are happy to put you in touch with experts on the following topics:
- Energy turnaround and expansion of photovoltaics
- Catalysts for producing green hydrogen
- Powerful, long-lasting batteries and energy stores
- Accelerator research & development
- Quantum materials
- Life sciences / Research about the corona virus
- Key technology for a future without fossil fuelsIn June and July 2025, catalyst researcher Nico Fischer spent some time at HZB. It was his sabbatical, he was relieved of his duties as Director of the Catalysis Institute in Cape Town for several months and was able to focus on research only. His institute is collaborating with HZB on two projects that aim to develop environmentally friendly alternatives using innovative catalyst technologies. The questions were asked by Antonia Rötger, HZB.
- 5000th patient treated with protons for eye tumoursFor more than 25 years, Charité – Universitätsmedizin Berlin and the Helmholtz-Zentrum Berlin (HZB) have been jointly offering proton radiation therapy for eye tumours. The HZB operates a proton accelerator in Berlin-Wannsee for this purpose, while Charité provides medical care for the patients. The 5000th patient was treated at the beginning of August.
- Iridium-free catalysts for acid water electrolysis investigatedHydrogen will play an important role, both as a fuel and as a raw material for industry. However, in order to produce relevant quantities of hydrogen, water electrolysis must become feasible on a multi-gigawatt scale. One bottleneck is the catalysts required, with iridium in particular being an extremely rare element. An international collaboration has therefore investigated iridium-free catalysts for acidic water electrolysis based on the element cobalt. Through investigations with various methods, among them experiments at the LiXEdrom at the BESSY II X-ray source in Berlin, they were able to elucidate processes that take place during water electrolysis in a cobalt-iron-lead oxide material as the anode. The study is published in Nature Energy.