The new accelerator facility FAIR is under construction at GSI. Learn more.

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Photo: Adrian Rodríguez Rodríguez/GSI
It is still a glance into the future: The combination of carbon ion and immune therapy could become an effective tool in the fight against cancer. Promising results for the potential benefit of this treatment combination have now been published in the renowned radiation therapy journal "International Journal of Radiation Oncology, Biology, Physics" of the American Society for Therapeutic Radiation Oncology (ASTRO). The authors are an international team of researchers, led by the Department of...



Photo: D. Fehrenz/GSI/FAIR
The next decisive milestones for the FAIR ring accelerator SIS100 are set: While the structural work on the construction site is progressing and the development and production of the high-tech components for the future FAIR accelerator center is running simultaneously, another crucial aspect is now moving more and more into focus: the assembly of the accelerator machine in the new buildings.



Photo: J. Hosan, HA Hessen Agentur
Very successful experiments, high-quality ion beams for research — the current experiment period on the GSI and FAIR campus has ended with a positive outcome despite the corona pandemic. At the existing accelerator facility researchers were able to conduct experiments with a wide variety of ion beams on numerous topics. This opened the way for new discoveries and excellent research opportunities in the future.



Photo: Manfred Antranias Zimmer/Pixabay
The cycling season is slowly coming to an ending, time for an annual balance: This year again, team GSI/FAIR has achieved a great success in city cycling campaign and has reached first place in the team ranking. A total mileage of 37,181 kilometers was covered. 142 employees from GSI, FAIR and externals participated in the campaign as team GSI/FAIR. The kilometers travelled avoided the emission of 5.5 tonnes of carbon dioxide.



Copyright: Jutta Leroudier, GSI Helmholtzzentrum
In the context of an international network funded by the European Union, scientists at Johannes Gutenberg University Mainz (JGU) and GSI Helmholtzzentrum für Schwerionenforschung (GSI) are participating in the education of young postgraduate students in the fields of nuclear and atomic physics and nuclear chemistry. The goal of this Innovative Training Network (ITN) on Laser Ionization and Spectroscopy of Actinide Elements (LISA) is to decipher the structure of actinides, i.e., the heavy, mostly...



Copyright: GSI Helmholtzzentrum für Schwerionenforschung
[Translate to English:] Der praktische Jahresplaner von GSI/FAIR erfreut sich seit vielen Jahren großer Beliebtheit. Darin sind alle gesetzlichen Feiertage und die Schulferien aufgeführt. Er bietet eine gute Übersicht über das Jahr und ist für viele eine nützliche Planungshilfe.



Photo: Jan-Christoph Hartung/TU Darmstadt
The ELEMENTS project combines the strong research forces of several international leading institutions. Besides the Goethe University Frankfurt as consortium leader the TU Darmstadt, the University of Gießen and the GSI Helmholtzzentrum für Schwerionenforschung in Darmstadt are also involved.



Picture: A. Bauswein, GSI
A new study lead by GSI scientists and international colleagues investigates black-hole formation in neutron star mergers. Computer simulations show that the properties of dense nuclear matter play a crucial role, which directly links the astrophysical merger event to heavy-ion collision experiments at GSI and FAIR. These properties will be studied more precisely at the future FAIR facility. With the award of the 2020 Nobel Prize in Physics the topic currently also receives a lot of attention.



Photo: Alexander Yakushev, GSI Helmholtzzentrum für Schwerionenforschung
Gaining a better understanding of the limiting factors for the existence of stable, superheavy elements is a decade-old quest of chemistry and physics. Superheavy elements, as are called the chemical elements with atomic numbers greater than 103, do not occur in nature and are produced artificially with particle accelerators. They vanish within seconds. A team of scientists from GSI Helmholtzzentrum für Schwerionenforschung Darmstadt, Johannes Gutenberg University Mainz (JGU),...




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