maximum magnetic rigidity of 1.4 Tm) HITRAP (trapping and low energy beam facility for highly charge ions at the ESR) SIS100 (synchrotron with a maximum magnetic rigidity of 100 Tm)
“Calculations of charge-transfer and excitation probabilities in collisions of heavy highly charged ions” Congratulation to Ilia for his excellent thesis !!! on behalf of the whole SPARC Collaboration The
ExtreMe Matter Institute EMMI The ExtreMe Matter Institute EMMI at the GSI Helmholtz Centre for Heavy Ion Research is dedicated to research in the area of matter at the extremes of density and temperature
is in progress. Due to the very intense beam and the expected fluctuation of the new high current ion sources, all relevant parameters have to be determined in one macro pulse. An overview of improved
experimental storage ring ESR The experimental storage ring ESR has a circumference of 108 meters. Ions accelerated before by the linear accelerator UNILAC and the ring accelerator SIS18 can circulate in
Podlech, M. Schwarz, F. D. Dziuba Reconstruction of the Longitudinal Phase Portrait for the SC CW Heavy Ion HELIAC at GSI IPAC 2019, MOPTS024 Authors: S. Lauber, W. A. Barth, C. Burandt, V. Gettmann, T. Kuerzeder [...] K. Aulenbacher, H. Podlech, M. Schwarz Advanced Beam Dynamics Design for the Superconducting Heavy Ion Accelerator HELIAC IPAC 2019, MOPTS034 Authors: M. Schwarz, M. Basten, M. Busch, T. Conrad, H. Podlech
to explore the possible use of a barrel DIRC system in the central detector at the future electron-ion collider facility. We are responsible for the simulation and reconstruction framework and the construction [...] the PID Consortium for an integrated program for Particle Identification (PID) at a future Electron-Ion Collider (eRD14), a joint effort from 18 labs and universities. DIRC Upgrade for the GlueX Experiment
Pschorn, P. Rottländer, C. Will, C. Xiao, M. Chung Further R&D for a New Superconducting CW Heavy Ion Linac@GSI IPAC 2014, THPME004 Authors: W. Barth, K. Aulenbacher, F. Dziuba, M. Amberg, V. Gettmann [...] Gettmann, S. Mickat, H. Podlech, U. Ratzinger Optimization of an IH-cavity based High Energy Heavy-ion Linac at GSI IPAC 2014, THPME005 Authors: A. Orzhekhovskaya, G. Clemente, L. Groening, S. Mickat, B. Schlitt
studies of projectile fragmentation Research program to study specific aspects of relativistic heavy-ion collisions. These experiments are relevant for the understanding of the mechanisms involved in peripheral [...] heated nuclear matter from the characteristics of fission. Projectile fragments from peripheral heavy-ion collisions are highly excited with small shape distortions and low angular momenta. These are ideal
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