Conveners
Rare Isotope Beams: Charge strippers and target for Radioactive Ion Beam Factory (RIBF)
- Hiroki Okuno (RIKEN (Japan))
Rare Isotope Beams: Pushing the frontier of accelerator targets at TRIUMF
- Alexander Gottberg (TRIUMF (CA))
Rare Isotope Beams: Material Testing Demands by Heavy-Ion Pulsed Beams
- Helmut Weick (GSI Helmholtzzentrum für Schwerionenforschung)
Rare Isotope Beams: Present and future pulsed proton beams at ISOLDE – Impact on target design and facility performance.
- Thierry Stora (CERN)
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Dr Hiroki Okuno (RIKEN (Japan))
The Radioactive Isotope Beam Factory (RIBF) is a cyclotron-based accelerator facility that is used for nuclear science studies. RIBF can produce the most intense RI beams using fragmentation or fission of high speed heavy ion beams. Charge strippers for the accelerator system and a target with a beam dump for RI beam production were successfully developed although they have risk to be a bottle...
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Helmut Weick (GSI Helmholtzzentrum für Schwerionenforschung)
For many applications especially in combination with storage rings pulsed high energy beams of heavy ions are needed.
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The energy deposition of heavy ions is dominated by their high electronic stopping power (dE/dx), leading to high energy densities even for lower numbers per pulse. We will give examples of energy deposition profiles.
The FAIR facility under construction is planned to... -
Thierry Stora (CERN)
While Isotope Separation OnLine (ISOL) facilities operate with cw primary beams, ISOLDE is the only ISOL facility that receives a pulsed proton beam. It is delivered by the PSBooster injector, on average 3kW with s, Hz time structure, induces peak energy deposition in the target material in the range of 500J/cm3 -per-pulse. Past experiences show that proton beam window ruptures, liquid metal...
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Alexander Gottberg (TRIUMF (CA))
With over five decades of experience in accelerator-based targetry, TRIUMF also ensures that Canada remains on the leading edge of research and development of high-intensity radiation damage in materials. TRIUMF operates a variety of target systems from 13-500 MeV, kW-class proton targets for medical isotope production to higher power proton and electron beam targets for muon, neutron and rare...
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