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LHCAgent
The result of the magnetic measurements after the cold mass assembly is a holding point for the production of the LHC main dipoles. Here we describe how the magnetic measurements are screened to validate them and to work out faulty components or assembly procedures. The control limits are based on the experience acquired on the first 13 measured cold masses, and comparison to collared coil magnetic measurements. These limits are applied to 58 cold masses to carry out the quality control. The strategy used to set control limits and the main results of the quality control are discussed
The Large Hadron Collider (LHC) will use some 7600 superconducting corrector magnets. The magnetic f...
In order to provide the necessary mechanical aperture for the LHC beam, the main dipole cold masses ...
The LHC ring will contain 1232 main dipole and 382 main quadrupole twin aperture magnets. All main m...
The LHC superconducting lattice dipole magnets are presently under construction in three European in...
The field quality measurements at room temperature of around 100 collared coils of the main LHC dipo...
Field measuring systems operating at room temperature have been installed on each magnet manufacture...
N° d'ordre : DU 1722, EDSF : 521The 1234 superconducting dipoles of the Large Hadron Collider, worki...
For the LHC dipoles, mandatory electrical integrity tests are performed to qualify the cold mass (CM...
A magnetic measurement system operating at room temperature in the firms is essential for acceptance...
Production of 18 superconducting low-beta quadrupoles (MQXB) for the LHC is well advanced. These 5.5...
Production of 18 superconducting low-beta quadrupoles (MQXB) for the LHC is well advanced. These 5.5...
Production of 18 superconducting low-beta quadrupoles (MQXB) for the LHC is well advanced. These 5.5...
Extensive power tests of the LHC dipole magnets required the development of new techniques to study ...
In order to provide the largest possible mechanical aperture for the LHC beam, the dipole cold masse...
The Large Hadron Collider (LHC) will use some 7600 superconducting corrector magnets. The magnetic f...
The Large Hadron Collider (LHC) will use some 7600 superconducting corrector magnets. The magnetic f...
In order to provide the necessary mechanical aperture for the LHC beam, the main dipole cold masses ...
The LHC ring will contain 1232 main dipole and 382 main quadrupole twin aperture magnets. All main m...
The LHC superconducting lattice dipole magnets are presently under construction in three European in...
The field quality measurements at room temperature of around 100 collared coils of the main LHC dipo...
Field measuring systems operating at room temperature have been installed on each magnet manufacture...
N° d'ordre : DU 1722, EDSF : 521The 1234 superconducting dipoles of the Large Hadron Collider, worki...
For the LHC dipoles, mandatory electrical integrity tests are performed to qualify the cold mass (CM...
A magnetic measurement system operating at room temperature in the firms is essential for acceptance...
Production of 18 superconducting low-beta quadrupoles (MQXB) for the LHC is well advanced. These 5.5...
Production of 18 superconducting low-beta quadrupoles (MQXB) for the LHC is well advanced. These 5.5...
Production of 18 superconducting low-beta quadrupoles (MQXB) for the LHC is well advanced. These 5.5...
Extensive power tests of the LHC dipole magnets required the development of new techniques to study ...
In order to provide the largest possible mechanical aperture for the LHC beam, the dipole cold masse...
The Large Hadron Collider (LHC) will use some 7600 superconducting corrector magnets. The magnetic f...
The Large Hadron Collider (LHC) will use some 7600 superconducting corrector magnets. The magnetic f...
In order to provide the necessary mechanical aperture for the LHC beam, the main dipole cold masses ...
The LHC ring will contain 1232 main dipole and 382 main quadrupole twin aperture magnets. All main m...
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