Report number
| CERN-BE-2023-003 |
Title
| 3D calculation for the alignment of LHC low-beta quadrupoles |
Author(s)
| Rude, Vivien (CERN) ; Kautzmann, Guillaume (CERN) ; Mainaud Durand, Helene (CERN) ; Naegely, Anne Valerie (CERN) ; Sosin, Mateusz (CERN) ; Udzik, Michael |
Publication
| 2022 |
Imprint
| 31 Oct 2022 |
Number of pages
| 6 |
Presented at
| 16th International Workshop on Accelerator Alignment (IWAA 2022), Ferney-Voltaire, France, 31 Oct - 4 Nov 2022 |
Subject category
| Engineering |
Keywords
| LS2 ; low beta quadrupoles ; LHC ; experiments ; alignment ; 3D calculation ; magnets |
Abstract
| The low beta triplet quadrupoles magnets of the Large Hadron Collider (LHC) are located on both sides of the ATLAS, CMS, ALICE and LHCb experiments. The alignment tolerances of these components are particularly stringent with ±0.5 mm at 3σ and are tracked by an alignment system consisting of micrometric sensors and motorized jacks used for components remote adjustment. The system has been installed in 2008 with the purpose of monitoring the triplets relative displacements with respect to their nominal position. After the development of appropriate calibration benches, the first absolute calibrations of the sensors have been performed in 2016, allowing a determination of the magnet positions in an absolute reference frame. The radial and vertical (plus roll) data were separated in two different calculations steps. During the LHC Long Shutdown 2 (LS2, 2019- 2021), consolidation works have been carried out on all triplets allowing to perform absolute calculation in 3D, and significantly increasing the position determination accuracy. This paper gives an overview of the 3D calculations used currently for the alignment of low beta quadrupoles magnets and summarizes their positions change since LS2. |
Other source
| Inspire |
Submitted by
| jeanette.kotzian@cern.ch |