Fig 1 - uploaded by John Tompkins
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Schematic layout of the International Linear Collider as proposed in its Reference Design Report. Beam line areas are noted by name.
Source publication
The international linear collider has about 80 km of beamlines which require over 13,000 magnets for focusing and steering the beams. Approximately 18% are superconducting magnets and the rest "conventional" warm iron-dominated magnets with copper coils, totaling about 135 styles. Superconducting technology is primarily used for the magnets located...
Context in source publication
Context 1
... Approximately 18% of the magnets are superconducting and the rest are "conventional" warm iron-dominated magnets with copper coils, of which about 60% are water-cooled. About 40% are low-current corrector magnets. The ILC comprises several sets of beam lines divided into areas, each with a particular pur- pose indicated in each area name, see Fig. 1 of the lattices results in 135 different magnet styles, 92 styles are room temperature magnets and 43 are superconducting, see Table I. Superconducting technology is primarily used for the mag- nets located in the RF cryomodules, but it is also required for some spin rotation solenoids, damping ring wigglers, the positron source ...
Citations
The design integration process for the International Linear Collider (ILC) involves aformal documentation of the requirements, specifications and processes for the constructionof the ILC in a uniform and consistent manner. We discuss the benefits of such a process,how a central integration group can support the design integration, and how 3D models canbe used to share a common vision of the project.
