Add to ORKGAll of the new quadrupoles for the Fermilab Main Injector ring have been built and measured. The magnets are 2.95 m and 2.54 m in length with a 41.7 mm bore. In operation, the magnets run from 1.61 T/m at 8. 9 GeV/c to 15.7 T/m at 120 GeV/c and 19.6 T/m at 150 GeV/c. These points correspond to injection, Main Injector fixed target physics and antiproton production, and extraction for transfer to the Tevatron. Good field uniformity is required to ensure a stable beam over the whole acceleration cycle. A significant octupole is included to assist in resonant extraction. The performance of these quadrupoles, in both integrated strength and field uniformity, is presented. All magnets produced meet the accelerator requirements
COSY-Jiilich [I] is a synchrotron and storage ring accelerating protons from 40 MeV injection energy...
Permanent magnets which show the highest magnetic flux density, have been used in constructing an in...
Later phases of the High Current Transport Experiment (HCX) at LBNL will employ superconducting magn...
All of the new quadrupoles for the Fermilab Main Injector ring have been built and measured. The mag...
A large sample of the 2.54-meter quadrupoles for lattice matching in the Fermilab Main Injector have...
A large sample of the 2.54-meter quadrupoles for lattice matching in the Fermilab Main Injector have...
Measurements of 230 6-meter and 136 4-meter dipoles constructed for the Fermilab Main Injector were ...
Hybrid Permanent Magnet Quadrupoles for specialized portions of the 8 GeV transfer line from the Fer...
Measurements of the Productions run of Fermilab Main Injector Dipole magnets is underway. Redundant ...
The Main Injector project at Fermilab requires a dipole with good field quality from 0.1 T to 1.73 T...
Measurements of the Fermilab Main Injector dipoles using a partially redundant system of integrated ...
A flux measurement system has been developed for measuring the integrated strength and relative shap...
Prototype quadrupole magnets for the APS storage ring have been fabricated and tested. Mechanical st...
As a part of the USLHC program, Fermilab is building half of the inner triplet quadrupole magnets fo...
At Fermilab we have operated a production line for the fabrication of go1 21 foot long superconducti...
COSY-Jiilich [I] is a synchrotron and storage ring accelerating protons from 40 MeV injection energy...
Permanent magnets which show the highest magnetic flux density, have been used in constructing an in...
Later phases of the High Current Transport Experiment (HCX) at LBNL will employ superconducting magn...
All of the new quadrupoles for the Fermilab Main Injector ring have been built and measured. The mag...
A large sample of the 2.54-meter quadrupoles for lattice matching in the Fermilab Main Injector have...
A large sample of the 2.54-meter quadrupoles for lattice matching in the Fermilab Main Injector have...
Measurements of 230 6-meter and 136 4-meter dipoles constructed for the Fermilab Main Injector were ...
Hybrid Permanent Magnet Quadrupoles for specialized portions of the 8 GeV transfer line from the Fer...
Measurements of the Productions run of Fermilab Main Injector Dipole magnets is underway. Redundant ...
The Main Injector project at Fermilab requires a dipole with good field quality from 0.1 T to 1.73 T...
Measurements of the Fermilab Main Injector dipoles using a partially redundant system of integrated ...
A flux measurement system has been developed for measuring the integrated strength and relative shap...
Prototype quadrupole magnets for the APS storage ring have been fabricated and tested. Mechanical st...
As a part of the USLHC program, Fermilab is building half of the inner triplet quadrupole magnets fo...
At Fermilab we have operated a production line for the fabrication of go1 21 foot long superconducti...
COSY-Jiilich [I] is a synchrotron and storage ring accelerating protons from 40 MeV injection energy...
Permanent magnets which show the highest magnetic flux density, have been used in constructing an in...
Later phases of the High Current Transport Experiment (HCX) at LBNL will employ superconducting magn...