Alignment Tolerances for the CLIC Decelerator

This note aims to quantify the alignment tolerances for the CLIC decelerator lattice elements by investigating the effects of wake fields and component misalignment. The tolerances comes from the requirements of transporting the entire beam through the lattice, while extracting the required amount of energy. First, we briefly discuss the beam energy spread and its effect on the beam envelope. Then, we analyze the effects of the PETS dipole wakes for a perfect machine. Finally, the effect of lattice element misalignment is studied. Beam based alignment schemes for quadrupole correction will be presented, including modifications of the schemes needed for the CLIC decelerating station. Simulations have been performed with the tracking code PLACET . The results indicate, for an energy extraction efficiency of 85%, that it would be possible to transport the entire decelerator beam through the lattice, if PETS misalignment are not larger than ~100 um and if beam based alignment methods are used for quadrupole correction.