Add to ORKGAt the heavy-ion accelerator complex of GSI an intensity-upgrade program is under way with the goal to fill the synchrotron SIS up to the space charge limit for all ions up to uranium. This project will increase the beam intensity especially for heavy ions by two orders of magnitude compared to the present situation. This upgrade program includes various steps: ion source development, combined electron cooling and multiturn-injection at the synchrotron SIS and the replacement of the UNILAC prestripper structures by RFQs and IH-structures.
The development of high-current ion sources at GSI is primarily aimed at delivering singly or doubly...
Research on 'High Energy Density in Matter' by means of heavy ion and laser beams is in the process ...
The CSI studies for a new large 14 GeV/u heavy ion facility have been continued. Once again concepts...
In order to follow the requirements of the ongoing experimental program at GSI and later on of the p...
A technical report is given on the envisaged modifications of the UNILAC at the GIS (Darmstadt) in o...
The FAIR project “Facility for Antiproton and Ion Re-search ” at GSI is designed to deliver heavy io...
In the framework of the beam intensity upgrade program of GSI the UNILAC- serving as an injector to ...
SIS18 will serve as booster synchrotron for the proposed International Accelerator Facility FAIR [1]...
The present GSI-accelerator complex is foreseen to serve the future synchrotron SIS 100 [1] as an in...
The original UNILAC injector uses PENNING type ion sources and charge states up to 10+ for uranium b...
The original UNILAC injector uses PENNING type ion sources and charge states up to 10+ for uranium b...
The present GSI-accelerator complex, consisting of the linear accelerator UNILAC and the heavy ion s...
The new GSI accelerator facilities (FAIR project) are planned to deliver heavy ion beams of increase...
For more than 30 years the heavy–element research us-ing the velocity separator SHIP is one of the ”...
The heavy ion synchrotron SIS at GSI was designed for op-eration at the space charge limit e.g. with...
The development of high-current ion sources at GSI is primarily aimed at delivering singly or doubly...
Research on 'High Energy Density in Matter' by means of heavy ion and laser beams is in the process ...
The CSI studies for a new large 14 GeV/u heavy ion facility have been continued. Once again concepts...
In order to follow the requirements of the ongoing experimental program at GSI and later on of the p...
A technical report is given on the envisaged modifications of the UNILAC at the GIS (Darmstadt) in o...
The FAIR project “Facility for Antiproton and Ion Re-search ” at GSI is designed to deliver heavy io...
In the framework of the beam intensity upgrade program of GSI the UNILAC- serving as an injector to ...
SIS18 will serve as booster synchrotron for the proposed International Accelerator Facility FAIR [1]...
The present GSI-accelerator complex is foreseen to serve the future synchrotron SIS 100 [1] as an in...
The original UNILAC injector uses PENNING type ion sources and charge states up to 10+ for uranium b...
The original UNILAC injector uses PENNING type ion sources and charge states up to 10+ for uranium b...
The present GSI-accelerator complex, consisting of the linear accelerator UNILAC and the heavy ion s...
The new GSI accelerator facilities (FAIR project) are planned to deliver heavy ion beams of increase...
For more than 30 years the heavy–element research us-ing the velocity separator SHIP is one of the ”...
The heavy ion synchrotron SIS at GSI was designed for op-eration at the space charge limit e.g. with...
The development of high-current ion sources at GSI is primarily aimed at delivering singly or doubly...
Research on 'High Energy Density in Matter' by means of heavy ion and laser beams is in the process ...
The CSI studies for a new large 14 GeV/u heavy ion facility have been continued. Once again concepts...