ACLIP is a 3 GHz proton SCL linac designed as a booster for a 30 MeV commercial cyclotron. The final energy is 62 MeV well suitable for the therapy of ocular tumors or for further acceleration (up to 230 MeV) by a second linac in order to treat deep-seated tumours. The possibility of using magnetrons as the source of RF power, to reduce the overall cost of the machine, is under investigation with our collaborators e2v (Chelmsford, UK). ACLIP is a 5 modules structure coupled together. The first one (able to accelerate proton from 30 to 35 MeV) has been machined and completely brazed. We plan to have the high power test by early Autumn 2008. In this paper we will review the main features of the linac and discuss the results of th...
Recent results in accelerator physics showed the feasibility of a coupling scheme between a cyclotro...
For an optimal exploitation of the benefits of proton therapy the most accurate dose delivery system...
Several hospitals and laboratories possess proton cyclotrons with output energies of 60 to 70 MeV. A...
A 3 GHz Side Coupled linac (ACLIP) has been designed to accelerate the proton energy of a 30 MeV com...
Recent results in accelerator physics have shown the feasibility of a coupling scheme between a cycl...
A 230 MeV proton LINAC system for medical applications is being developed and commissioned for the L...
Proton therapy is a rapidly developing technique for tumour treatment, thanks to the physical and do...
LIBO is a proton accelerator that operates at 3 GHz, the same frequency as the one adopted in the ab...
ADAM (Application of Detectors and Accelerators to Medicine), a CERN spin-off company, is developing...
Proposed for the first time almost 30 years ago, the research on radio frequency linacs for hadron t...
This paper is devoted to the design and initial experimental testing of a high power linear accelera...
A compact proton synchrotron with a circumference of 11.9m is being developed for the medical radiot...
In the last ten years the use of proton beams in radiation therapy has become a clinical tool for tr...
LIBO is a proton accelerator that operates at 3 GHz, the same frequency as the one adopted in the ab...
The TUrning LInac for Protontherapy (TULIP) project requires the transport of RF power from modulato...
Recent results in accelerator physics showed the feasibility of a coupling scheme between a cyclotro...
For an optimal exploitation of the benefits of proton therapy the most accurate dose delivery system...
Several hospitals and laboratories possess proton cyclotrons with output energies of 60 to 70 MeV. A...
A 3 GHz Side Coupled linac (ACLIP) has been designed to accelerate the proton energy of a 30 MeV com...
Recent results in accelerator physics have shown the feasibility of a coupling scheme between a cycl...
A 230 MeV proton LINAC system for medical applications is being developed and commissioned for the L...
Proton therapy is a rapidly developing technique for tumour treatment, thanks to the physical and do...
LIBO is a proton accelerator that operates at 3 GHz, the same frequency as the one adopted in the ab...
ADAM (Application of Detectors and Accelerators to Medicine), a CERN spin-off company, is developing...
Proposed for the first time almost 30 years ago, the research on radio frequency linacs for hadron t...
This paper is devoted to the design and initial experimental testing of a high power linear accelera...
A compact proton synchrotron with a circumference of 11.9m is being developed for the medical radiot...
In the last ten years the use of proton beams in radiation therapy has become a clinical tool for tr...
LIBO is a proton accelerator that operates at 3 GHz, the same frequency as the one adopted in the ab...
The TUrning LInac for Protontherapy (TULIP) project requires the transport of RF power from modulato...
Recent results in accelerator physics showed the feasibility of a coupling scheme between a cyclotro...
For an optimal exploitation of the benefits of proton therapy the most accurate dose delivery system...
Several hospitals and laboratories possess proton cyclotrons with output energies of 60 to 70 MeV. A...