accelerator SIS100 and the FAIR construction site. On the construction site, she visited the individual construction phases up close. The program included the first installations in the SIS100 underground

upgrade project for the existing SIS18 ring accelerator. As a result, it was convenient to give General Electric Power Conversion Germany in Berlin the job of building the SIS100 main power supplies. In doing [...] the “SPARC” Project, and exchange information on network device technologies with the Subproject SIS100/SIS18 and the Expert Group Electrical Power Systems (EPS). (BP) [...] The demands on the main power supplies of the future FAIR ring accelerator SIS100 are extremely high. During the acceleration cycle, the rotation of the main magnet must be guided with the greatest precision

versatile fixed-target collision experiment that operates with ion beams of a few GeV provided by the SIS18 synchrotron, and probes the systems created in such collisions at freeze-out are characterized by [...] advance the research objectives further towards FAIR. Over the next years, the construction of the SIS100 accelerator and the CBM experiment will enable the study of heavy-ion collisions in the 2.7 to 4

different construction phases up close. The program included the underground accelerator ring tunnel SIS100, the central beamline and transfer building and the buildings for the FAIR experimental sites. They

influenza virus was irradiated with the iron isotope Fe-56, which was accelerated at 1 GeV/n at the SIS18 synchrotron. Based on the resulting viruses, HZI produced a flu vaccine inactivated with heavy ions

rich scientific harvest was obtained at the previously commissioned GSI accelerator facilities UNILAC/SIS/ESR, with numerous discoveries and new technological developments. Professor Specht also played an

three-meter-long devices could enable a one-kilometer particle accelerator ring, say the FAIR accelerator SIS100, to deliver 50 per-cent more intense heavy-ion beams. Sounds tempting?” asks Dr. Adrian Oeftiger [...] example – as the only synchrotron worldwide – available for each main magnet in the FAIR accelerator SIS100. Second, such simulations must be both fast and highly accurate, which could be realized by a developed

operation of lab setups, as well as the Silicon Tracking System (STS) in the mCBM at the ring accelerator SIS18. The development of a general strategy for ambient parameters monitoring inside the STS is also an

untersuchbare kurzzeitige Bildung heißer und verdichteter Kernmaterie. Mit dem neuen Schwerionensynchroton SIS18 war in Darmstadt in den 1990er Jahren die Tür zu höheren Strahlenergien und neuen Forschungsthemen

the beam quality for low-energy and high-brightness beams for the LHC injectors at CERN and the SIS18/SIS100 facility at GSI, as well as for high-energy beams with large luminosity, such as the LHC and