Tracking studies with variable magnetic field to charactarize quadropole failures in LCH

Author

Alonso, A.G. ; Schmidt, R.

Author_Institution

CERN, Geneva

fYear

2007

fDate

25-29 June 2007

Firstpage

1616

Lastpage

1618

Abstract

During LHC operation, an energy of up to 360 MJ will be stored in each proton beam. A magnet failure can lead to important equipment damage if the beam is not extracted in time. The machine protection systems should detect such failures and trigger the beam extraction system. In order to characterize the beam response after magnet failures, tracking simulations have been performed with MAD-X. The magnetic field was set to change with time according to realistic current changes in the electrical circuits with the magnets after a powering failure. The effect on the beam of powering failures in the normal conducting quadrupoles has been studied. For fast failures (beam lost in less than 100 ms) the linear changes in the optics define the losses and the nonlinear effects are negligible. For slower failures, higher order resonances may lead to beam losses of up to 8% of the beam.

Keywords

accelerator magnets; ion accelerators; particle beam extraction; proton accelerators; proton beams; storage rings; synchrotrons; LHC operation; MAD-X; beam effect; beam extraction system; electrical circuits; machine protection systems; magnet failures; magnetic field; nonlinear effects; proton beam; quadrupole failures; tracking simulations; Circuit simulation; Large Hadron Collider; Magnetic circuits; Magnetic devices; Magnetic fields; Nonlinear optics; Optical losses; Particle beams; Protection; Resonance;

fLanguage

English

Publisher

ieee

Conference_Titel

Particle Accelerator Conference, 2007. PAC. IEEE

Conference_Location

Albuquerque, NM

Print_ISBN

978-1-4244-0916-7

Type

conf

DOI

10.1109/PAC.2007.4440841

Filename

4440841