Add to ORKGAn efficient RF to beam energy transfer in the accelerating structures of the drive beam is one of the key points of the Compact Linear Collider (CLIC) RF power source. For this, the structures are fully beam-loaded, i.e. the accelerating gradient is nearly zero at the downstream end of each structure. In this way, about 96 % of the RF energy can be transferred to the beam. To demonstrate this mode of operation, 1.5 ..s long beam pulses are accelerated in six fully loaded structures in the CLIC Test Facility (CTF3) Linac. The final beam energy is compared to the input RF power of the structures, proving the efficient energy transfer
The CERN CTF3 facility is being used to test and demonstrate key technical issues for the CLIC (Comp...
In the framework of the CLIC (Compact Linear Collider) RF power source studies, the scheme of electr...
In order to study the principle of the Compact Linear Collider (CLIC) based on the Two Beam Accelera...
An efficient RF to beam energy transfer in the accelerat-ing structures of the drive beam is one of ...
The 3 TeV compact linear collider, CLIC, foresees an RF source based on a high current drive beam ru...
The objective of the CLIC Test Facility CTF3, built at CERN by an international collaboration, is to...
Abstract In order to demonstrate the feasibility of the CLIC multiTeV linear collider option, the dr...
The CLIC study aims at the design of a high-energy (0.5-5 TeV), high luminosity e+e- linear collider...
The CLIC Test Facility CTF3, built at CERN by an international collaboration, aims at demonstrating ...
The CLIC (Compact Linear Collider) RF power source is based on a new scheme of electron pulse compre...
The CLIC Test Facility 3 (CTF3) has the objective to demonstrate the remaining feasibility issues of...
The aim of the CLIC (Compact Linear Collider) Study is to investigate the feasibility of a high lumi...
For the CLIC two-beam scheme, a high-current, long-pulse drive beam is required for RF power generat...
The CERN CTF3 facility is being used to test and demonstrate key technical issues for the CLIC (Comp...
The CLIC study has been exploring the scheme for an electron-positron Collider (CLIC) with high lumi...
The CERN CTF3 facility is being used to test and demonstrate key technical issues for the CLIC (Comp...
In the framework of the CLIC (Compact Linear Collider) RF power source studies, the scheme of electr...
In order to study the principle of the Compact Linear Collider (CLIC) based on the Two Beam Accelera...
An efficient RF to beam energy transfer in the accelerat-ing structures of the drive beam is one of ...
The 3 TeV compact linear collider, CLIC, foresees an RF source based on a high current drive beam ru...
The objective of the CLIC Test Facility CTF3, built at CERN by an international collaboration, is to...
Abstract In order to demonstrate the feasibility of the CLIC multiTeV linear collider option, the dr...
The CLIC study aims at the design of a high-energy (0.5-5 TeV), high luminosity e+e- linear collider...
The CLIC Test Facility CTF3, built at CERN by an international collaboration, aims at demonstrating ...
The CLIC (Compact Linear Collider) RF power source is based on a new scheme of electron pulse compre...
The CLIC Test Facility 3 (CTF3) has the objective to demonstrate the remaining feasibility issues of...
The aim of the CLIC (Compact Linear Collider) Study is to investigate the feasibility of a high lumi...
For the CLIC two-beam scheme, a high-current, long-pulse drive beam is required for RF power generat...
The CERN CTF3 facility is being used to test and demonstrate key technical issues for the CLIC (Comp...
The CLIC study has been exploring the scheme for an electron-positron Collider (CLIC) with high lumi...
The CERN CTF3 facility is being used to test and demonstrate key technical issues for the CLIC (Comp...
In the framework of the CLIC (Compact Linear Collider) RF power source studies, the scheme of electr...
In order to study the principle of the Compact Linear Collider (CLIC) based on the Two Beam Accelera...