Add to ORKGA capability to provide a large variety of bunch patterns is crucial for the concept of the Project X serving MW-range beam to several experiments simultaneously. This capability will be realized by the Medium Energy Beam Transport's (MEBT) chopping system that will divert 80% of all bunches of the initially 5 mA, 2.1 MeV CW 162.5 MHz beam to an absorber according to a pre-programmed bunch-by-bunch selection. Being considered one of the most challenging components, the chopping system will be tested at the Project X Injector Experiment (PXIE) facility that will be built at Fermilab as a prototype of the Pojrect X front end. The bunch deflection will be made by two identical sets of travelling-wave kickers working in sync. Presently, two ver...
High current and stringent restrictions on beam losses, below 1 nA/m, in the designed linac for the ...
International audienceThe Eurisol heavy ion post-accelerator and the Spiral2 deuton/ion MEBT should ...
The feasibility of cleanly separating the main 10.128MHz bunches from the 101.28MHz satellite bunche...
The Project X Injector Experiment (PIXIE) will be a prototype of the Project X front end that will b...
The Project X Injector Experiment (PXIE) will be aprototype front end of the Project X accelerator p...
A beam absorber is needed for a new high power accelerator to be built in Fermilab. It is called Pro...
Los Alamos completed design, fabrication, procurement, and initial testing (without beam) of the SNS...
A multi-MW proton facility, Project X, has been proposed and is currently under development at Fermi...
The future Fermilab program in the high energy physics is based on a new facility called the Project...
Project X is a high intensity proton facility conceived to support a world-leading physics program a...
This paper introduces a new type of chopper, which is similar to a beam transformer first discussed ...
The medium-energy beam-transport line (MEBT) plays an important role in reducing beam loss in the JA...
The medium-energy beam-transport line (MEBT) plays an important role in reducing beam loss in the JA...
The demand for high power proton beams is at an all time high. The global community has identified m...
The medium-energy beam-transport line of 2.7 m long for the JHF 200-MeV proton linac was designed. I...
High current and stringent restrictions on beam losses, below 1 nA/m, in the designed linac for the ...
International audienceThe Eurisol heavy ion post-accelerator and the Spiral2 deuton/ion MEBT should ...
The feasibility of cleanly separating the main 10.128MHz bunches from the 101.28MHz satellite bunche...
The Project X Injector Experiment (PIXIE) will be a prototype of the Project X front end that will b...
The Project X Injector Experiment (PXIE) will be aprototype front end of the Project X accelerator p...
A beam absorber is needed for a new high power accelerator to be built in Fermilab. It is called Pro...
Los Alamos completed design, fabrication, procurement, and initial testing (without beam) of the SNS...
A multi-MW proton facility, Project X, has been proposed and is currently under development at Fermi...
The future Fermilab program in the high energy physics is based on a new facility called the Project...
Project X is a high intensity proton facility conceived to support a world-leading physics program a...
This paper introduces a new type of chopper, which is similar to a beam transformer first discussed ...
The medium-energy beam-transport line (MEBT) plays an important role in reducing beam loss in the JA...
The medium-energy beam-transport line (MEBT) plays an important role in reducing beam loss in the JA...
The demand for high power proton beams is at an all time high. The global community has identified m...
The medium-energy beam-transport line of 2.7 m long for the JHF 200-MeV proton linac was designed. I...
High current and stringent restrictions on beam losses, below 1 nA/m, in the designed linac for the ...
International audienceThe Eurisol heavy ion post-accelerator and the Spiral2 deuton/ion MEBT should ...
The feasibility of cleanly separating the main 10.128MHz bunches from the 101.28MHz satellite bunche...