Add to ORKGThe high intensity beams with different emittances fore-seen to be delivered by the PS2, an upgraded version of the actual CERN Proton Synchrotron, require strict control of beam losses in order to protect the machine components and enable their hands-on maintenance. Beam loss simula-tions based on dedicated numerical tools are undertaken for a variety of PS2 beams and for different loss mechanisms, along the whole accelerating cycle. In this respect, a first iteration of the collimation system is presented
Two topics concerning high intensity, medium energy, circular proton accelerators have been studied:...
During its 30 years of operation, the Fermilab Booster has served only as an injector for the relati...
A high beam power in the proposed Fermilab Proton Drivers--1.2 MW in 16-GeV PD-I and 0.48 MW in 8-Ge...
The high intensity beams with different emittances foreseen to be delivered by the PS2, an upgraded ...
A main concern in high intensity rings is the evaluation of uncontrolled losses and their minimizati...
The different beam dump functionalities required for the proposed PS2 machine and its transfer lines...
The 3 GeV rapid-cycling synchrotron (RCS) of the Japan Proton Accelerator Research Complex (J-PARC) ...
The LHC beams are designed to have high stability and to be stored for many hours. The nominal beam ...
The different beam dump functionalities required for the proposed PS2 machine and its transfer lines...
The LHC beams are designed to have high stability and to be stored for many hours. The nominal beam ...
Principles, design criteria and realization of reliable collimation systems for the high-power accel...
Based on realistic Monte-Carlo simulations a two-stage beam collimation system is designed to minimi...
A high beam power of 1.15 MW in the proposed 16-GeV Proton Driver [1] implies serious constraints on...
During its 30 years of operation, the Fermilab Booster has served only as an injector for the relati...
The Super Proton Synchrotron (SPS) is the last accelerator in the LHC Injectors Chain. Its performan...
Two topics concerning high intensity, medium energy, circular proton accelerators have been studied:...
During its 30 years of operation, the Fermilab Booster has served only as an injector for the relati...
A high beam power in the proposed Fermilab Proton Drivers--1.2 MW in 16-GeV PD-I and 0.48 MW in 8-Ge...
The high intensity beams with different emittances foreseen to be delivered by the PS2, an upgraded ...
A main concern in high intensity rings is the evaluation of uncontrolled losses and their minimizati...
The different beam dump functionalities required for the proposed PS2 machine and its transfer lines...
The 3 GeV rapid-cycling synchrotron (RCS) of the Japan Proton Accelerator Research Complex (J-PARC) ...
The LHC beams are designed to have high stability and to be stored for many hours. The nominal beam ...
The different beam dump functionalities required for the proposed PS2 machine and its transfer lines...
The LHC beams are designed to have high stability and to be stored for many hours. The nominal beam ...
Principles, design criteria and realization of reliable collimation systems for the high-power accel...
Based on realistic Monte-Carlo simulations a two-stage beam collimation system is designed to minimi...
A high beam power of 1.15 MW in the proposed 16-GeV Proton Driver [1] implies serious constraints on...
During its 30 years of operation, the Fermilab Booster has served only as an injector for the relati...
The Super Proton Synchrotron (SPS) is the last accelerator in the LHC Injectors Chain. Its performan...
Two topics concerning high intensity, medium energy, circular proton accelerators have been studied:...
During its 30 years of operation, the Fermilab Booster has served only as an injector for the relati...
A high beam power in the proposed Fermilab Proton Drivers--1.2 MW in 16-GeV PD-I and 0.48 MW in 8-Ge...