Add to ORKGIt is not unusual to place multiple accelerators in a common enclosure to save on civil construction costs. This often complicates operations, especially if accelerators are affecting each other. At Fermilab, the influence of a rapidly cycling Main Injector (MI) synchrotron on an antiproton storage ring (Recycler), placed in a common tunnel, was initially found to be unacceptable for a reliable operation of the Recycler. Initial closed orbit excursions in the Recycler ring during the MI ramp were in excess of 5 mm (rms). This paper describes a shielding technique, used to reduce these orbit excursions by a factor of five
This report describes the technical design of the Fermilab Recycler Ring. The purpose of the Recycle...
The Fermilab Recycler Ring (RR) is intended to be used as a future antiproton storage ring for the R...
Radiation shielding calculations are performed for the Fermilab Linac enclosure and gallery. The pre...
The Recycler [2] is a 3.3 km storage ring composed solely of permanent gradient magnets and quadrupo...
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 Recycler ring employs an electron cooler to store and cool 8.9-GeV antiprotons. The coo...
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 goal of accelerator shielding design is to protect the workers, general public, and the environm...
Passive magnetic shielding refers to the use of ferromagnetic materials to redirect magnetic field l...
A high beam power of 0.48 MW implies serious constraints on beam losses in the Proton Driver. As in ...
The radiation transport analysis in the proposed Fermi-lab 1.2 MWProton Driver (PD) [1] is fundament...
The protection of spacecraft crews from the radiation produced by high energy electrons, protons and...
"The problem of radiation derange to the walls of two types of vacuum chamber for the 6 Bev Cambridg...
Prevention of electromagnetic interference (EMI), or ``noise pickup,`` is an important design aspect...
The radiation shielding in the Fermilab Main Injector (FMI) complex has been carried out by adopting...
This report describes the technical design of the Fermilab Recycler Ring. The purpose of the Recycle...
The Fermilab Recycler Ring (RR) is intended to be used as a future antiproton storage ring for the R...
Radiation shielding calculations are performed for the Fermilab Linac enclosure and gallery. The pre...
The Recycler [2] is a 3.3 km storage ring composed solely of permanent gradient magnets and quadrupo...
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 Recycler ring employs an electron cooler to store and cool 8.9-GeV antiprotons. The coo...
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 goal of accelerator shielding design is to protect the workers, general public, and the environm...
Passive magnetic shielding refers to the use of ferromagnetic materials to redirect magnetic field l...
A high beam power of 0.48 MW implies serious constraints on beam losses in the Proton Driver. As in ...
The radiation transport analysis in the proposed Fermi-lab 1.2 MWProton Driver (PD) [1] is fundament...
The protection of spacecraft crews from the radiation produced by high energy electrons, protons and...
"The problem of radiation derange to the walls of two types of vacuum chamber for the 6 Bev Cambridg...
Prevention of electromagnetic interference (EMI), or ``noise pickup,`` is an important design aspect...
The radiation shielding in the Fermilab Main Injector (FMI) complex has been carried out by adopting...
This report describes the technical design of the Fermilab Recycler Ring. The purpose of the Recycle...
The Fermilab Recycler Ring (RR) is intended to be used as a future antiproton storage ring for the R...
Radiation shielding calculations are performed for the Fermilab Linac enclosure and gallery. The pre...