Dr
Michael Benedikt
(CERN)
10/12/05, 1:30 PM
Facilities at CERN: injectors, short and mid-term plans for n_TOF and ISOLDE
Invited oral contribution
After analysis by the HIP working group [CERN-AB-2004-022], the number of protons
that the existing accelerators can deliver after the year 2005 has been found to be
insufficient for the needs of the LHC and the present generation of approved
experiments. In the longer term (beyond ~2010), the definition of the needs depends
upon the LHC upgrade and the physics to be addressed....
Prof.
Peter Butler
(University of Liverpool and CERN)
10/12/05, 2:05 PM
Facilities at CERN: injectors, short and mid-term plans for n_TOF and ISOLDE
Invited oral contribution
The HIE-ISOLDE project will provide beams of accelerated radioactive beams up to 10
MeV/u at CERN. The energy upgrade, carried out in two stages (the first stage will
give beams of 5.5 MeV/u), will be accompanied by major developments to the Isolde
target and front-end that will allow a 3-fold increase in the proton intensity
anticipated from LINAC4 and a faster PSB cycling frequency....
10/12/05, 2:40 PM
Facilities at CERN: injectors, short and mid-term plans for n_TOF and ISOLDE
Invited oral contribution
Dr
Thomas Otto
(CERN)
10/12/05, 3:40 PM
Facilities at CERN: injectors, short and mid-term plans for n_TOF and ISOLDE
Invited oral contribution
ISOLDE has been designed in 1990 for a maximum proton beam power which will be
exceeded by up to a factor of five in HIE ISOLDE. The consequences for radiation
protection will be described.
The n-TOF Ph2 facility shall be built from the outset according to radiation
protection standards which will allow the use of sealed and unsealed radioactive
targets and the full exploitation of...
Dr
Jacques Bouchez
(CEA)
10/12/05, 4:05 PM
Facilities at CERN: injectors, short and mid-term plans for n_TOF and ISOLDE
Invited oral contribution
I shall describe the benefits for neutrino physics of having at CERN a multimegawatt
proton machine (SPL) and/or high intensity sources of radioactive ions (as
envisioned in the Eurisol project).
The SPL machine would deliver very intense so-called neutrino superbeams of 300 MeV
in energy which could be aimed at a megaton-class underground detector located in
the Frejus tunnel, while...