Add to ORKGThe High-Efficiency Source (HIEFS) developed at the IAP (Frankfurt University) as a source for light and medium heavy ions is described and has been optimized with respect to beam quality and mass/charge value. Investigations on the transport and space charge compensation of intensive beams were continued to improve beam diagnostics and to characterize the effect of external fields on dynamics and emittance of compensated beams. As a future modul of a RFQ accelllerator a new injection system has been designed. (WEN)SIGLEAvailable from TIB Hannover: F96B502+a / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Technische InformationsbibliothekBundesministerium fuer Forschung und Technologie (BMFT), Bonn (Germany)DEGerman
The accelerator facilities at the Max-Planck-Institut fr Kernphysik in Heidelberg will be upgraded b...
For heavy ion fusion (HIF) induction linac drivers, a typical injector requires total beam current o...
The accelerator facility installed at the Institut fuer Kernphysik (IKF) combines a 14 GHz electron ...
The High EFiciency Source (HIBFS) is a compact high brilliance ion source designed to supply intense...
The overall purpose of these experiments is to contribute to the development of ion injector technol...
The High Current Injector (HCI) was designed and built as a dedicated single turn injector for the T...
The ultra-high intensity heavy-ion beam is highly pursued for heavy-ion researches and applications....
Research on 'High Energy Density in Matter' by means of heavy ion and laser beams is in the process ...
A specialized rf-accelerator system HSI consisting of two RFQ's and 8 rf seven-gap cavities was buil...
International audienceDuring the past 5 years, a R&D program has been launched to improve the be...
A new frequency variable linear accelerator injector was installed. It accelerates charged ions of a...
Inertial Confinement Fusion (ICF) with heavy ion beams has a promising perspective for future energy...
The US Heavy Ion Fusion Virtual National Laboratory is continuing research into ion sources and inje...
The long term goal of Heavy Ion Fusion (HIF) is the development of an accelerator with the large bea...
The Facility for Antiproton and Ion Research (FAIR) at GSI Darmstadt will provide unprecedented inte...
The accelerator facilities at the Max-Planck-Institut fr Kernphysik in Heidelberg will be upgraded b...
For heavy ion fusion (HIF) induction linac drivers, a typical injector requires total beam current o...
The accelerator facility installed at the Institut fuer Kernphysik (IKF) combines a 14 GHz electron ...
The High EFiciency Source (HIBFS) is a compact high brilliance ion source designed to supply intense...
The overall purpose of these experiments is to contribute to the development of ion injector technol...
The High Current Injector (HCI) was designed and built as a dedicated single turn injector for the T...
The ultra-high intensity heavy-ion beam is highly pursued for heavy-ion researches and applications....
Research on 'High Energy Density in Matter' by means of heavy ion and laser beams is in the process ...
A specialized rf-accelerator system HSI consisting of two RFQ's and 8 rf seven-gap cavities was buil...
International audienceDuring the past 5 years, a R&D program has been launched to improve the be...
A new frequency variable linear accelerator injector was installed. It accelerates charged ions of a...
Inertial Confinement Fusion (ICF) with heavy ion beams has a promising perspective for future energy...
The US Heavy Ion Fusion Virtual National Laboratory is continuing research into ion sources and inje...
The long term goal of Heavy Ion Fusion (HIF) is the development of an accelerator with the large bea...
The Facility for Antiproton and Ion Research (FAIR) at GSI Darmstadt will provide unprecedented inte...
The accelerator facilities at the Max-Planck-Institut fr Kernphysik in Heidelberg will be upgraded b...
For heavy ion fusion (HIF) induction linac drivers, a typical injector requires total beam current o...
The accelerator facility installed at the Institut fuer Kernphysik (IKF) combines a 14 GHz electron ...