The performance of the ATLAS Inner Detector alignment has been studied using pp collision data at √s = 13 TeV collected by the ATLAS experiment during Run 2 (2015–2018) of the Large Hadron Collider (LHC). The goal of the detector alignment is to determine the detector geometry as accurately as possible and correct for time-dependent movements. The Inner Detector alignment is based on the minimization of track-hit residuals in a sequence of hierarchical levels, from global mechanical assembly structures to local sensors. Subsequent levels have increasing numbers of degrees of freedom; in total there are almost 750,000. The alignment determines detector geometry on both short and long timescales, where short timescales describe movements wit...
The performance of the ATLAS Inner Detector alignment has been studied using pp collision data at s√...
The performance of the ATLAS Inner Detector alignment has been studied using pp collision data at √=...
The performance of the ATLAS Inner Detector alignment has been studied using pp collision data at v ...
The performance of the ATLAS Inner Detector alignment has been studied using pp collision data at s√...
The performance of the ATLAS Inner Detector alignment has been studied using pp collision data at √=...
The performance of the ATLAS Inner Detector alignment has been studied using pp collision data at v ...
The performance of the ATLAS Inner Detector alignment has been studied using pp collision data at s√...
The performance of the ATLAS Inner Detector alignment has been studied using pp collision data at √=...
The performance of the ATLAS Inner Detector alignment has been studied using pp collision data at v ...