Beam Based Alignment of Interaction Region Magnets

TL;DR

This paper introduces a novel beam based alignment method for interaction region magnets that accounts for complex properties of strong, long quadrupoles, improving accuracy without requiring nearby monitors or large orbit changes.

Contribution

The paper presents a new BBA procedure that determines quadrupole offsets without large orbit adjustments or local monitors, and accounts for alignment angles to reduce optical error sensitivity.

Findings

Method reduces sensitivity to optical errors by 1-2 orders of magnitude.

Applicable to HERA IR quadrupoles with complex properties.

Enables global magnet positioning from BBA measurements.

Abstract

In conventional beam based alignment (BBA) procedures, the relative alignment of a quadrupole to a nearby beam position monitor is determined by finding a beam position in the quadrupole at which the closed orbit does not change when the quadrupole field is varied. The final focus magnets of the interaction regions (IR) of circular colliders often have some specialized properties that make it difficult to perform conventional beam based alignment procedures. At the HERA interaction points, for example, these properties are: (a) The quadrupoles are quite strong and long. Therefore a thin lens approximation is quite imprecise. (b) The effects of angular magnet offsets become significant. (c) The possibilities to steer the beam are limited as long as the alignment is not within specifications. (d) The beam orbit has design offsets and design angles with respect to the axis of the low-beta quadrupoles. (e) Often quadrupoles do not have a beam position monitor in their vicinity. Here we present a beam based alignment procedure that determines the relative offset of the closed orbit from a quadrupole center without requiring large orbit changes or monitors next to the quadrupole. Taking into account the alignment angle allows us to reduce the sensitivity to optical errors by one to two orders of magnitude. We also show how the BBA measurements of all IR quadrupoles can be used to determine the global position of the magnets. The sensitivity to errors of this method is evaluated and its applicability to HERA is shown.