DOIAbstract
Results of radiation shielding calculations performed for extraction beam absorbers of a Fermilab photoinjector with the MARS14 code are presented. They can be used in other similar projects, particularly early sections of linear colliders
Results of radiation shielding calculations performed for extraction beam absorbers of a Fermilab photoinjector with the MARS14 code are presented. They can be used in other similar projects, particularly early sections of linear colliders
A 120 GeV Main Injector proton beam will be delivered to the NuMI beam line at Fermilab at the rate ...
A semi-empirical method that allows us to predict intensity of generated field emission in supercond...
A high beam power of 0.48 MW implies serious constraints on beam losses in the Proton Driver. As in ...
The radiation shielding in the Fermilab Main Injector (FMI) complex has been carried out by adopting...
The MuCool Test Area (MTA) is an intense primary beam facility derived directly from the Fermilab Li...
The radiation transport analysis in the proposed Fermi-lab 1.2 MWProton Driver (PD) [1] is fundament...
The results of Monte Carlo radiation shielding study performed with the MARS15 code for the final de...
The beam power in the upgraded Booster at 8 GeV and 10 Hz will be 64 kW. Beam loss can result in hig...
The Fermilab Main Injector extraction system will be capable of delivering a uniform 120 GeV beam of...
The results of radiation shielding studies for the vertical test cryostat VTS1 at Fermilab performed...
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...
Status and recent developments of the MARS 14 Monte Carlo code system for simulation of hadronic and...
MARS is a Monte Carlo code for simulation of three-dimensional hadronic and electromagnetic cascades...
The 120 GeV primary proton beamline for the NuMI– MINOS [1] experiment at Fermilab will transport on...
A 120 GeV Main Injector proton beam will be delivered to the NuMI beam line at Fermilab at the rate ...
A semi-empirical method that allows us to predict intensity of generated field emission in supercond...
A high beam power of 0.48 MW implies serious constraints on beam losses in the Proton Driver. As in ...
The radiation shielding in the Fermilab Main Injector (FMI) complex has been carried out by adopting...
The MuCool Test Area (MTA) is an intense primary beam facility derived directly from the Fermilab Li...
The radiation transport analysis in the proposed Fermi-lab 1.2 MWProton Driver (PD) [1] is fundament...
The results of Monte Carlo radiation shielding study performed with the MARS15 code for the final de...
The beam power in the upgraded Booster at 8 GeV and 10 Hz will be 64 kW. Beam loss can result in hig...
The Fermilab Main Injector extraction system will be capable of delivering a uniform 120 GeV beam of...
The results of radiation shielding studies for the vertical test cryostat VTS1 at Fermilab performed...
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...
Status and recent developments of the MARS 14 Monte Carlo code system for simulation of hadronic and...
MARS is a Monte Carlo code for simulation of three-dimensional hadronic and electromagnetic cascades...
The 120 GeV primary proton beamline for the NuMI– MINOS [1] experiment at Fermilab will transport on...
A 120 GeV Main Injector proton beam will be delivered to the NuMI beam line at Fermilab at the rate ...
A semi-empirical method that allows us to predict intensity of generated field emission in supercond...
A high beam power of 0.48 MW implies serious constraints on beam losses in the Proton Driver. As in ...
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