Top quark pair production at the Tevatron

TL;DR

This paper reviews measurements of top quark pair production at the Tevatron, highlighting the importance of these measurements for testing QCD predictions, understanding backgrounds, and exploring potential new physics, with recent results from CDF and D0.

Contribution

It presents recent measurements of total and differential top quark pair production cross sections, enhancing understanding of top quark properties and aiding searches for new phenomena.

Findings

Measured total and differential cross sections for top quark pairs.

Identified hadronic jets with sub-structure as a key tool for new physics searches.

Performed the first search for highly boosted top quarks at the Tevatron.

Abstract

The top quark has been discovered in 1995 by the CDF and D0 experiments located at the two beam-crossing points at the Tevatron ppbar collider. The top quark is the most massive of the known elementary particles. At hadron-hadron colliders, top quarks are mostly produced in pairs through strong interactions. The measurement of the cross section for top quark pair production is a test of our understanding of QCD prediction at next-to-leading order (NLO). This measurement requires a deep understanding of the backgrounds to top quark production, thus setting the ground for the measurements of top quark intrinsic properties. Finally, measuring sigma(ttbar) allows to set limits on new physics models that predict new particles coupling to the most recently discovered quark. The top quark discovery needed only few tens of p-1 . The Tevatron integrated luminosity is now about 9 fb-1 , more than two orders of magnitude larger. In this document I will present some of the latest measurements of total and differential cross sections for top quark pair production performed by the CDF and D0 collaborations, that analyze up to about 6 fb-1 to provide a refined understanding of this extremely interesting particle. The identification of hadronic jets with sub- structure is thought to be a crucial tool towards the search for new phenomena at the Large Hadron Collider (LHC) proton-proton collisions at >= 7 TeV using the CMS and ATLAS detectors. The first search for highly boosted top quarks has been performed by CDF and is presented here.