The TUrning LInac for Protontherapy (TULIP) project requires the transport of RF power from modulator/klystron systems at rest on the floor to the linac structures mounted on a rotating gantry, via a waveguide system that can operate over a range of angles of rotation. A waveguide rotary joint capable of transporting RF power at 3 GHz and up to 20 MW has been designed and built in collaboration between TERA Foundation, CERN Beams and CERN Engineering Departments. A high-power test of the prototype has been performed at the CLIC Test Facility (CTF3), at CERN. The design and the results of the tests are reported in this article
Edited by G. Geschonke (CERN) and A. Ghigo (INFN Frascati) The design of CLIC is based on a two-beam...
ADAM (Application of Detectors and Accelerators to Medicine), a CERN spin-off company, is developing...
In the frame of a new program for medical applications, CERN has designed and is presently construct...
The paper presents1 the design of a planar R-Band accelerating structure and results of a first high...
Abstract In a collaboration between CERN, the Universities and INFN of Milan and Naples, and the TER...
[[abstract]]The rotary joint is a useful microwave component that connects a fixed part to a rotatab...
ACLIP is a 3 GHz proton SCL linac designed as a booster for a 30 MeV commercial cyclotron. The fina...
Proposed for the first time almost 30 years ago, the research on radio frequency linacs for hadron t...
[[abstract]]The rotary joint is a useful microwave component that connects a fixed part to a rotatab...
The CERN CTF3 facility will test and demonstrate many vital components of CLIC (Compact Linear Colli...
Compact and more affordable, facilities for proton therapy are now entering the market of commercial...
Recent results in accelerator physics have shown the feasibility of a coupling scheme between a cycl...
A 3 GHz Side Coupled linac (ACLIP) has been designed to accelerate the proton energy of a 30 MeV com...
It is foreseen that the transfer structures (CTS) of the drive linac will produce 40 MW, 11.4 ns, 30...
LIBO is a proton accelerator that operates at 3 GHz, the same frequency as the one adopted in the ab...
Edited by G. Geschonke (CERN) and A. Ghigo (INFN Frascati) The design of CLIC is based on a two-beam...
ADAM (Application of Detectors and Accelerators to Medicine), a CERN spin-off company, is developing...
In the frame of a new program for medical applications, CERN has designed and is presently construct...
The paper presents1 the design of a planar R-Band accelerating structure and results of a first high...
Abstract In a collaboration between CERN, the Universities and INFN of Milan and Naples, and the TER...
[[abstract]]The rotary joint is a useful microwave component that connects a fixed part to a rotatab...
ACLIP is a 3 GHz proton SCL linac designed as a booster for a 30 MeV commercial cyclotron. The fina...
Proposed for the first time almost 30 years ago, the research on radio frequency linacs for hadron t...
[[abstract]]The rotary joint is a useful microwave component that connects a fixed part to a rotatab...
The CERN CTF3 facility will test and demonstrate many vital components of CLIC (Compact Linear Colli...
Compact and more affordable, facilities for proton therapy are now entering the market of commercial...
Recent results in accelerator physics have shown the feasibility of a coupling scheme between a cycl...
A 3 GHz Side Coupled linac (ACLIP) has been designed to accelerate the proton energy of a 30 MeV com...
It is foreseen that the transfer structures (CTS) of the drive linac will produce 40 MW, 11.4 ns, 30...
LIBO is a proton accelerator that operates at 3 GHz, the same frequency as the one adopted in the ab...
Edited by G. Geschonke (CERN) and A. Ghigo (INFN Frascati) The design of CLIC is based on a two-beam...
ADAM (Application of Detectors and Accelerators to Medicine), a CERN spin-off company, is developing...
In the frame of a new program for medical applications, CERN has designed and is presently construct...