Add to ORKGThe radiation shielding in the Fermilab Main Injector (FMI) complex has been carried out by adopting a number of prescribed stringent guidelines established by a previous safety analysis. Determination of the required amount of radiation shielding at various locations of the FMI has been done using Monte Carlo computations. A three dimensional ray tracing code as well as a code based upon empirical observations have been employed in certain cases
The results of radiation shielding studies for the vertical test cryostat VTS1 at Fermilab performed...
The aim of this study is to determine an optimal shielding of the LINAC4 beam dump fulfilling the ra...
The FLUKA Monte Carlo program was used to calculate the dose equivalent behind a homogeneous concret...
The radiation transport analysis in the proposed Fermi-lab 1.2 MWProton Driver (PD) [1] is fundament...
Radiation shielding calculations are performed for the Fermilab Linac enclosure and gallery. The pre...
The results of Monte Carlo radiation shielding study performed with the MARS15 code for the final de...
The MuCool Test Area (MTA) is an intense primary beam facility derived directly from the Fermilab Li...
Results of radiation shielding calculations performed for extraction beam absorbers of a Fermilab ph...
A high beam power of 0.48 MW implies serious constraints on beam losses in the Proton Driver. As in ...
The results of Monte Carlo radiation shielding study performed with the MARS15 code for the final de...
A semi-empirical method that allows us to predict intensity of generated field emission in supercond...
The Fermilab Main Injector extraction system will be capable of delivering a uniform 120 GeV beam of...
The SPEAR3 storage ring at the Stanford Synchrotron Radiation Laboratory (SSRL) is an upgrade of the...
Radiation shielding requirements for fusion reactors present different problems than those for fissi...
The environmental radiation shielding requirements of the SSC have been evaluated using currently av...
The results of radiation shielding studies for the vertical test cryostat VTS1 at Fermilab performed...
The aim of this study is to determine an optimal shielding of the LINAC4 beam dump fulfilling the ra...
The FLUKA Monte Carlo program was used to calculate the dose equivalent behind a homogeneous concret...
The radiation transport analysis in the proposed Fermi-lab 1.2 MWProton Driver (PD) [1] is fundament...
Radiation shielding calculations are performed for the Fermilab Linac enclosure and gallery. The pre...
The results of Monte Carlo radiation shielding study performed with the MARS15 code for the final de...
The MuCool Test Area (MTA) is an intense primary beam facility derived directly from the Fermilab Li...
Results of radiation shielding calculations performed for extraction beam absorbers of a Fermilab ph...
A high beam power of 0.48 MW implies serious constraints on beam losses in the Proton Driver. As in ...
The results of Monte Carlo radiation shielding study performed with the MARS15 code for the final de...
A semi-empirical method that allows us to predict intensity of generated field emission in supercond...
The Fermilab Main Injector extraction system will be capable of delivering a uniform 120 GeV beam of...
The SPEAR3 storage ring at the Stanford Synchrotron Radiation Laboratory (SSRL) is an upgrade of the...
Radiation shielding requirements for fusion reactors present different problems than those for fissi...
The environmental radiation shielding requirements of the SSC have been evaluated using currently av...
The results of radiation shielding studies for the vertical test cryostat VTS1 at Fermilab performed...
The aim of this study is to determine an optimal shielding of the LINAC4 beam dump fulfilling the ra...
The FLUKA Monte Carlo program was used to calculate the dose equivalent behind a homogeneous concret...