Track Reconstruction Performance in CMS

TL;DR

This paper evaluates CMS silicon tracker performance for LHC event track reconstruction, highlighting high efficiency for muons and recent improvements enabling low pT charged track reconstruction with minimal fake rates.

Contribution

It presents new methods and improvements in CMS track reconstruction, especially for low pT charged particles, reducing fake tracks and enhancing efficiency.

Findings

Achieves >99% efficiency for single muons with pT>1 GeV/c

Reconstructs low pT charged tracks with minimal fake fraction

Improved iterative tracking techniques enhance overall performance

Abstract

The expected performance of track reconstruction with LHC events using the CMS silicon tracker is presented. Track finding and fitting is accomplished with Kalman Filter techniques that achieve efficiencies above 99% on single muons with pT>1 GeV/c. Difficulties arise in the context of standard LHC events with a high density of charged particles, where the rate of fake combinatorial tracks is very large for low pT tracks, and nuclear interactions in the tracker material reduce the tracking efficiency for charged hadrons. Recent improvements with the CMS track reconstruction now allow to efficiently reconstruct charged tracks with pT down to few hundred MeV/c and as few as three crossed layers, with a very small fake fraction, by making use of an optimal rejection of fake tracks in conjunction with an iterative tracking procedure.