LIBO is a proton accelerator that operates at 3 GHz, the same frequency as the one adopted in the about 7500 electron linacs used for radiotherapy all over the world. Such a high frequency was chosen to obtain a large gradient (on average more than 10 MV/m), and thus a short linac (about 15 m) to boost the energy of the protons, extracted at about 60 MeV from a cyclotron, up to the 200 MeV needed for the treatment of deep-seated tumours. This paper describes the design study of the full 3 GHz Side Coupled Linac (modular structure, nine modules) and the construction and tests of the LIBO prototype (first module), which was built to accelerate protons from 62 to 74 MeV with an RF peak power of 4.4 MW. The items discussed are the beam dynam...
We report the first experiment aimed at the demonstration of low-energy protons acceleration by a hi...
Proton therapy is a rapidly developing technique for tumour treatment, thanks to the physical and do...
This paper presents the experimental results on the Terapia Oncologica con Protoni-Intensity Modulat...
LIBO is a proton accelerator that operates at 3 GHz, the same frequency as the one adopted in the ab...
Abstract In a collaboration between CERN, the Universities and INFN of Milan and Naples, and the TER...
Several hospitals and laboratories possess proton cyclotrons with output energies of 60 to 70 MeV. A...
This paper describes the acceleration tests performed at the Catania LNS Laboratory on a 3 GHz linac...
In the last ten years the use of proton beams in radiation therapy has become a clinical tool for tr...
The LIBO medical accelerator project of the TERA Foundation will use a commercially available 30 MeV...
Recent results in accelerator physics have shown the feasibility of a coupling scheme between a cycl...
For an optimal exploitation of the benefits of proton therapy the most accurate dose delivery system...
A 3 GHz Side Coupled linac (ACLIP) has been designed to accelerate the proton energy of a 30 MeV com...
International audienceOne mail goal of the European MYRRHA Project is the demonstration of the feasi...
ACLIP is a 3 GHz proton SCL linac designed as a booster for a 30 MeV commercial cyclotron. The fina...
The thesis focuses mainly on demonstrating the possibility to successfully employ a full-LINAC proto...
We report the first experiment aimed at the demonstration of low-energy protons acceleration by a hi...
Proton therapy is a rapidly developing technique for tumour treatment, thanks to the physical and do...
This paper presents the experimental results on the Terapia Oncologica con Protoni-Intensity Modulat...
LIBO is a proton accelerator that operates at 3 GHz, the same frequency as the one adopted in the ab...
Abstract In a collaboration between CERN, the Universities and INFN of Milan and Naples, and the TER...
Several hospitals and laboratories possess proton cyclotrons with output energies of 60 to 70 MeV. A...
This paper describes the acceleration tests performed at the Catania LNS Laboratory on a 3 GHz linac...
In the last ten years the use of proton beams in radiation therapy has become a clinical tool for tr...
The LIBO medical accelerator project of the TERA Foundation will use a commercially available 30 MeV...
Recent results in accelerator physics have shown the feasibility of a coupling scheme between a cycl...
For an optimal exploitation of the benefits of proton therapy the most accurate dose delivery system...
A 3 GHz Side Coupled linac (ACLIP) has been designed to accelerate the proton energy of a 30 MeV com...
International audienceOne mail goal of the European MYRRHA Project is the demonstration of the feasi...
ACLIP is a 3 GHz proton SCL linac designed as a booster for a 30 MeV commercial cyclotron. The fina...
The thesis focuses mainly on demonstrating the possibility to successfully employ a full-LINAC proto...
We report the first experiment aimed at the demonstration of low-energy protons acceleration by a hi...
Proton therapy is a rapidly developing technique for tumour treatment, thanks to the physical and do...
This paper presents the experimental results on the Terapia Oncologica con Protoni-Intensity Modulat...