Add to ORKGThe 1.4 MeV/u prestripper section of the UNILAC has to be rebuilt, to fill the Heavy Ion Synchrotron SIS up to its space charge limit. The injection and exit energies of the 36 MHz RFQ are 2.2 keV/u and 120 keV/u respectively. The design is made for I = 16.5 emA at a mass to charge ratio of 65. A new type of RFQ cavity for low rf frequencies which is operated in the H110-mode was developed, the ´IH-RFQ´. The cavity is 9.25 m long and consists of 10 cylindrical modules with an inner diameter of 0.762 m. The shunt impedance will be around 600 kΩm.
The FAIR@GSI accelerator facility will require the GSI-UNILAC to provide short heavy ion pulses of h...
In order to meet the requirements on beam parameters for the upcoming FAIR facility at GSI, the inje...
In order to meet the beam intensity and quality requirements imposed by FAIR, the HSI-RFQ beam dynam...
The UNILAC heavy ion accelerator will serve as a high current injector for the future FAIR accelerat...
A new high current injector (HSI) for the UNILAC and the SIS synchrotron for all ions up to Uranium ...
The nuclear science community considers the construction of the Rare Isotope Accelerator (RIA) facil...
GSI will replace the Wideröe prestripper linac by an RFQ and IH-type accelerator presently under con...
The GSI accelerator facility comprising the linear accelerator UNILAC and the synchrotron SIS18 will...
The GSI accelerator facility comprising the linear accelerator UNILAC and the synchrotron SIS18 will...
The Rare Isotope Accelerator (RIA) facility includes a driver linac for production of 400 kW CW heav...
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 UNILAC was improved for high current performance by replacing the Wideroe prestripper accelerato...
For more than 30 years the heavy–element research us-ing the velocity separator SHIP is one of the ”...
The GSI linear accelerator UNILAC provides heavy ion beams at Coulomb barrier energies for search an...
The FAIR@GSI accelerator facility will require the GSI-UNILAC to provide short heavy ion pulses of h...
In order to meet the requirements on beam parameters for the upcoming FAIR facility at GSI, the inje...
In order to meet the beam intensity and quality requirements imposed by FAIR, the HSI-RFQ beam dynam...
The UNILAC heavy ion accelerator will serve as a high current injector for the future FAIR accelerat...
A new high current injector (HSI) for the UNILAC and the SIS synchrotron for all ions up to Uranium ...
The nuclear science community considers the construction of the Rare Isotope Accelerator (RIA) facil...
GSI will replace the Wideröe prestripper linac by an RFQ and IH-type accelerator presently under con...
The GSI accelerator facility comprising the linear accelerator UNILAC and the synchrotron SIS18 will...
The GSI accelerator facility comprising the linear accelerator UNILAC and the synchrotron SIS18 will...
The Rare Isotope Accelerator (RIA) facility includes a driver linac for production of 400 kW CW heav...
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 UNILAC was improved for high current performance by replacing the Wideroe prestripper accelerato...
For more than 30 years the heavy–element research us-ing the velocity separator SHIP is one of the ”...
The GSI linear accelerator UNILAC provides heavy ion beams at Coulomb barrier energies for search an...
The FAIR@GSI accelerator facility will require the GSI-UNILAC to provide short heavy ion pulses of h...
In order to meet the requirements on beam parameters for the upcoming FAIR facility at GSI, the inje...
In order to meet the beam intensity and quality requirements imposed by FAIR, the HSI-RFQ beam dynam...