The quality of the magnetic field in the LHC main dipoles is given by the correct location and dimensions of the superconducting cables. In this paper the measurements of the dimensions of the LHC cables are presented; then the impact on field quality due to the tolerances on cable dimension is analyzed showing that biggest effect is found on even skew field harmonics. A Monte Carlo study is performed: the effect on random components of the field harmonics is studied and the impact on field quality of the coupling of two different cable producers in the same aperture is evaluated. We finally present a study of the correlation, based on the ninety pre-series collared coils, between cable geometry and field measurements
We have measured the magnetic field at room temperature and at 1.8 K on more than twenty, 1-m long, ...
Magnetic field measurements are an important tool to monitor the LHC main dipole production. In this...
One of the main issues for the operation of the LHC accelerator at CERN is the field errors generate...
In this work a detailed analysis of the influence of the mechanical components and the assembly proc...
The influence of the geometry of the collars in the main LHC dipole on the magnetic field harmonics ...
We report the main results of the magnetic field measurements performed on the full-size LHC superco...
The production of more than 60% of superconducting cables for the main dipoles of the Large Hadron C...
The field shape harmonics of the first superconducting main quadrupole prototype with the nominal de...
Current distribution among the wires of multi-strand superconducting cables is an important item for...
For many years it has been known that the properties and operating margins of superconducting magnet...
Abstract-The quality of the magnetic field in superconduc-ting accelerator magnets is associated wit...
Estimates of random field-shape errors induced by cable mispositioning in superconducting magnets ar...
A full characterization of the magnetic field in warm and cold conditions was performed as a part of...
The quality of the magnetic field in superconducting accelerator magnets is associated with the prop...
The data relative to the magnetic measurements at room temperature of the MBP2N1 prototype of the LH...
We have measured the magnetic field at room temperature and at 1.8 K on more than twenty, 1-m long, ...
Magnetic field measurements are an important tool to monitor the LHC main dipole production. In this...
One of the main issues for the operation of the LHC accelerator at CERN is the field errors generate...
In this work a detailed analysis of the influence of the mechanical components and the assembly proc...
The influence of the geometry of the collars in the main LHC dipole on the magnetic field harmonics ...
We report the main results of the magnetic field measurements performed on the full-size LHC superco...
The production of more than 60% of superconducting cables for the main dipoles of the Large Hadron C...
The field shape harmonics of the first superconducting main quadrupole prototype with the nominal de...
Current distribution among the wires of multi-strand superconducting cables is an important item for...
For many years it has been known that the properties and operating margins of superconducting magnet...
Abstract-The quality of the magnetic field in superconduc-ting accelerator magnets is associated wit...
Estimates of random field-shape errors induced by cable mispositioning in superconducting magnets ar...
A full characterization of the magnetic field in warm and cold conditions was performed as a part of...
The quality of the magnetic field in superconducting accelerator magnets is associated with the prop...
The data relative to the magnetic measurements at room temperature of the MBP2N1 prototype of the LH...
We have measured the magnetic field at room temperature and at 1.8 K on more than twenty, 1-m long, ...
Magnetic field measurements are an important tool to monitor the LHC main dipole production. In this...
One of the main issues for the operation of the LHC accelerator at CERN is the field errors generate...