Add to ORKGThis document provides estimates of energy deposition and activation for the dump of the future LINAC4 accelerator. Detailed maps of power density deposited in the dump are given, allowing to perform further thermo mechanical studies. Residual dose rates at a few cooling times for different irradiation scenarios have been calculated. Moreover, the air activation has been evaluated and doses to the reference population group and to a worker intervening in the cave at the shutdown have been predicted. Calculations were performed with the Monte Carlo particle transport and interaction code FLUKA
Due to the character of the original source materials and the nature of batch digitization, quality ...
Next-generation proton therapy centres are evolving towards compact designs to reduce construction a...
Medical linear accelerators are increasingly used in radiotherapy. During the operational life of th...
This note presents an estimate of the energy deposition and activation for the H0/H− dump for Linac4...
AbstractA new 160MeV H− linear accelerator (LINAC4) is being installed at CERN to replace the presen...
A new 160 MeV H−H− linear accelerator (LINAC4) is being installed at CERN to replace the present 50 ...
The aim of this study is to determine an optimal shielding of the LINAC4 beam dump fulfilling the ra...
CERN is presently designing a new chain of accelerators to replace the present Proton Synchrotron (P...
ELI-NP will be a new international research infrastructure facility for laser-based Nuclear Physics ...
In the layout of the LINAC4, a Medium Energy Beam Transport (MEBT) is placed between the RFQ and the...
Activation of high-intensity heavy-ion accelerators due to beam losses is a serious issue for accele...
Radiation protection of the personnel who will perform interventions in the LHC Beam Cleaning Insert...
Activation of high-intensity heavy-ion accelerators due to beam losses is a serious issue for accele...
HiRadMat (High Irradiation to Materials) is a new facility under construction at CERN designed to pr...
Next-generation proton therapy centres are evolving towards compact designs to reduce construction a...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Next-generation proton therapy centres are evolving towards compact designs to reduce construction a...
Medical linear accelerators are increasingly used in radiotherapy. During the operational life of th...
This note presents an estimate of the energy deposition and activation for the H0/H− dump for Linac4...
AbstractA new 160MeV H− linear accelerator (LINAC4) is being installed at CERN to replace the presen...
A new 160 MeV H−H− linear accelerator (LINAC4) is being installed at CERN to replace the present 50 ...
The aim of this study is to determine an optimal shielding of the LINAC4 beam dump fulfilling the ra...
CERN is presently designing a new chain of accelerators to replace the present Proton Synchrotron (P...
ELI-NP will be a new international research infrastructure facility for laser-based Nuclear Physics ...
In the layout of the LINAC4, a Medium Energy Beam Transport (MEBT) is placed between the RFQ and the...
Activation of high-intensity heavy-ion accelerators due to beam losses is a serious issue for accele...
Radiation protection of the personnel who will perform interventions in the LHC Beam Cleaning Insert...
Activation of high-intensity heavy-ion accelerators due to beam losses is a serious issue for accele...
HiRadMat (High Irradiation to Materials) is a new facility under construction at CERN designed to pr...
Next-generation proton therapy centres are evolving towards compact designs to reduce construction a...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Next-generation proton therapy centres are evolving towards compact designs to reduce construction a...
Medical linear accelerators are increasingly used in radiotherapy. During the operational life of th...