DAPNIA-06-163 |
---|
First computation of parsitic fields in LHC dipole magnet interconnects. |
A. Devred, B. Auchmann, Y. Boncompagni, V. Ferapontov, J.P. Koutchouk, S. Russenschuck, T. Sahner, C. Vollinger |
The Large Hadron Collider (LHC), now under construction at CERN, will rely on about 1600 main superconducting dipole and quadrupole magnets and over 7400 superconducting corrector magnets distributed around the eight sectors of the machine. Each magnet type is powered by dedicated superconducting busbars running along the sectors and mounted on the iron yokes of the main dipole and quadruple magnets. In the numerous magnet interconnects, the busbars are not magnetically shielded from the beam pipes and produce parasitic fields that can affect beam optics. We review the 3-D models that have been developed with ROXIE to compute the parasitic fields and we discuss their potential impacts on machine performance. |