Alignment of the LHCb Vertex Locator

TL;DR

This paper presents novel software alignment methods for the LHCb Vertex Locator, achieving micron-level precision essential for accurate vertex reconstruction in B-physics, with validation from simulations and beam tests.

Contribution

It introduces new software alignment techniques tailored for the VELO detector, addressing its unique operational demands and demonstrating their effectiveness.

Findings

Alignment precision at the micron level

Successful validation with Monte Carlo simulations

Effective in beam test conditions

Abstract

LHCb will commence data taking as the first dedicated heavy flavour experiment at a hadron collider in 2008. A very high hit precision from its vertex detector (VELO) is essential to meet the tight requirements of vertex reconstruction in B-physics. The single hit precision of the VELO is better than 10 micron. However, the VELO is operated only 8 mm from the beam and must be retracted and reinserted each LHC fill. Hence, the detector places unique demands on its alignment algorithm. The partially assembled VELO system has already been tested in a beam test. The novel software alignment methods are presented together with their interplay with the metrology measurements. Results from Monte Carlo simulation studies are discussed and recent beam test results are shown that prove the method's precision at the micron level.