Add to ORKGThe stability of the geometry of the superconducting coils is essential to the field homogeneity of the LHC dipole magnets. Mechanical stresses during coil assembly, ther-mal stresses during cool-down and electromagnetic stresses during operation are the sources of deformations of the coil geometry. Additional sources of field-shape errors are the dimensional tolerances of the magnet components and of the manifacturing and assembling tooling. To provide a realistic evaluation of the field-shape imperfections of the LHC dipoles arising from the above effects, appropriate finite-element computations were carried out to model the dipole cross-section in presence of stresses and a prelim-inary insight of the effect of the manifacturing toleranc...
The field shape harmonics of the first superconducting main quadrupole prototype with the nominal de...
In the frame of its current Superconducting Magnet R & D Program for the LHC collider, CERN has ...
Field quality in superconducting magnets strongly depends on the geometry of the coil. Fiberglass sp...
The stability of the geometry of the superconducting coils is essential to the field homogeneity of ...
This paper presents the results of a comprehensive analysis, from the geometric point of view, of th...
In this work a detailed analysis of the influence of the mechanical components and the assembly proc...
After years of studies and observations, the mechanical stability of the LHC main dipole magnets sti...
In superconducting magnets for particle accelerators the mechanical accuracy along the length of the...
The mechanical structure of the main LHC dipole is analysed. A finite element model is used to estim...
A 3D finite element mechanical model has been developed to simulate the complex geometry of the extr...
Estimates of random field-shape errors induced by cable mispositioning in superconducting magnets ar...
The transition region between the straight part and the ends of the coils of the LHC model and proto...
The detailed shape of the 15 m long superconducting LHC dipole cold mass is of high importance as it...
A full-scale and fully-instrumented working model of the LHC lattice cell has been tested at CERN be...
The production of the dipole magnets for the Large Hadron Collider is at its final stage. Neverthele...
The field shape harmonics of the first superconducting main quadrupole prototype with the nominal de...
In the frame of its current Superconducting Magnet R & D Program for the LHC collider, CERN has ...
Field quality in superconducting magnets strongly depends on the geometry of the coil. Fiberglass sp...
The stability of the geometry of the superconducting coils is essential to the field homogeneity of ...
This paper presents the results of a comprehensive analysis, from the geometric point of view, of th...
In this work a detailed analysis of the influence of the mechanical components and the assembly proc...
After years of studies and observations, the mechanical stability of the LHC main dipole magnets sti...
In superconducting magnets for particle accelerators the mechanical accuracy along the length of the...
The mechanical structure of the main LHC dipole is analysed. A finite element model is used to estim...
A 3D finite element mechanical model has been developed to simulate the complex geometry of the extr...
Estimates of random field-shape errors induced by cable mispositioning in superconducting magnets ar...
The transition region between the straight part and the ends of the coils of the LHC model and proto...
The detailed shape of the 15 m long superconducting LHC dipole cold mass is of high importance as it...
A full-scale and fully-instrumented working model of the LHC lattice cell has been tested at CERN be...
The production of the dipole magnets for the Large Hadron Collider is at its final stage. Neverthele...
The field shape harmonics of the first superconducting main quadrupole prototype with the nominal de...
In the frame of its current Superconducting Magnet R & D Program for the LHC collider, CERN has ...
Field quality in superconducting magnets strongly depends on the geometry of the coil. Fiberglass sp...