these closed shells for proton numbers Z=114 or 120-126 and for the neutron number N=184. It is the major goal of present superheavy element research to find this so-called "island of stability".
and understanding properties of neutron-rich nuclei and neutron-rich nuclear matter, which play a major role in our universe, for example in the synthesis of the heavy elements. They are for example produced
that combine both gravitational waves and visible light have pointed to neutron star mergers as the major site of this element production. The research was performed by scientists at GSI Helmholtzzentrum
of the steady progress being made in the construction of FAIR. In parallel, science is also taking major steps towards future research at FAIR. The FAIR experimental program is currently being defined more
y developing the benefits of radiation research and making even better use of its potential is a major goal, for example for an even more effective cancer therapy or for the safe exploration of space.
GSI und supports activities for the research in the field of "Tumor Therapy with Heavy Ions" .The major aims are further improvements of the tumor treatment and awarding these in the framework of the C
conference participants are served by the inviting departments. Events Organisation and implementation of major events, press and VIP visits. Presentations at external events, e.g. trade fairs, professional events
simulations of neutron star mergers with a moving-mesh code. Developing such a tool was one of the major goals of the GreatMoves project. Snapshots of the denisty in the equatorial plane from a moving-mesh [...] by a neutron-star merger can be extremely massive and neutron rich and could therefore represent a major site of the rapid neutron-capture (r-) process that is responsible for the creation of many heavy [...] typical neutron-star mergers. This provides strong support to the idea that neutron-star mergers are major r-process sites. (See also the press release ). Research Highlight: Black-hole formation in Neutron
ASTRUm stands for Astrophysics with Stored Highy Charged Radionuclides. The group builds on the major strength of GSI Helmholtz Centre for Heavy Ion Research which offers access to stored and cooled stable [...] than iron. Only a small part of the nuclei involved in p-process networks, however, is stable. The majority of the isotopes crucial for the final p-process abundance are unstable. Since there is no chance
of several hundred microseconds but at a low repetition rate of typically 1 pulse per second. The major demands of accelerator injection are good long time stability and good pulse to pulse reproducibility
Wed, August 28, 2024 | 2 p.m. Kosmische Alchemie der Elemente – Die ersten 14 Milliarden Jahre des Universums Karlheinz Langanke, GSI/FAIR Registration and further information