Add to ORKGThe radiation transport analysis in the proposed Fermi-lab 1.2 MWProton Driver (PD) [1] is fundamentally important because of the impact on machine performance, conventional facility design, maintenance operations, and related costs. The strategy adopted in the PD design is that the beam losses in the machine are localized and controlled as much as possible via the dedicated beam collimation system, with a high loss rate localized in that section and drastically lower uncontrolled beam loss rate in the rest of the lattice. Results of thorough Monte Carlo calculations of prompt and residual radiation in and around the PD components are presented for realistic assumptions and geometry under normal operation and accidental conditions. This all...
The 120 GeV primary proton beamline for the NuMI– MINOS [1] experiment at Fermilab will transport on...
To accelerate and deliver 1 MW of beam power at 16 GeV while keeping space charge in-duced tune shif...
Results of radiation shielding calculations performed for extraction beam absorbers of a Fermilab ph...
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...
A high beam power of 0.48 MW implies serious constraints on beam losses in the Proton Driver. As in ...
A high beam power of 1.15 MW in the proposed 16-GeV Proton Driver [1] implies serious constraints on...
It is shown that with the appropriate lattice and collimation design, one can control beam loss in t...
It is shown that with the appropriate lattice and collimation design, one can control beam loss in t...
During its 30 years of operation, the Fermilab Booster has served only as an injector for the relati...
During its 30 years of operation, the Fermilab Booster has served only as an injector for the relati...
The radiation shielding in the Fermilab Main Injector (FMI) complex has been carried out by adopting...
The beam power in the upgraded Booster at 8 GeV and 10 Hz will be 64 kW. Beam loss can result in hig...
The goal of accelerator shielding design is to protect the workers, general public, and the environm...
Radiation shielding calculations are performed for the Fermilab Linac enclosure and gallery. The pre...
PIP-II is the Fermilab's flagship project to provide powerful, high-intensity proton beams to the la...
The 120 GeV primary proton beamline for the NuMI– MINOS [1] experiment at Fermilab will transport on...
To accelerate and deliver 1 MW of beam power at 16 GeV while keeping space charge in-duced tune shif...
Results of radiation shielding calculations performed for extraction beam absorbers of a Fermilab ph...
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...
A high beam power of 0.48 MW implies serious constraints on beam losses in the Proton Driver. As in ...
A high beam power of 1.15 MW in the proposed 16-GeV Proton Driver [1] implies serious constraints on...
It is shown that with the appropriate lattice and collimation design, one can control beam loss in t...
It is shown that with the appropriate lattice and collimation design, one can control beam loss in t...
During its 30 years of operation, the Fermilab Booster has served only as an injector for the relati...
During its 30 years of operation, the Fermilab Booster has served only as an injector for the relati...
The radiation shielding in the Fermilab Main Injector (FMI) complex has been carried out by adopting...
The beam power in the upgraded Booster at 8 GeV and 10 Hz will be 64 kW. Beam loss can result in hig...
The goal of accelerator shielding design is to protect the workers, general public, and the environm...
Radiation shielding calculations are performed for the Fermilab Linac enclosure and gallery. The pre...
PIP-II is the Fermilab's flagship project to provide powerful, high-intensity proton beams to the la...
The 120 GeV primary proton beamline for the NuMI– MINOS [1] experiment at Fermilab will transport on...
To accelerate and deliver 1 MW of beam power at 16 GeV while keeping space charge in-duced tune shif...
Results of radiation shielding calculations performed for extraction beam absorbers of a Fermilab ph...