Unbinned measurement of thrust in e+e- collisions at s = 91.2 GeV with ALEPH archived data

Abstract

The strong coupling constant (αS) is a fundamental parameter of quantum chromodynamics (QCD), the theory of the strong force. Some of the earliest precise constraints on αS came from measurements of event shape observables, such as thrust (T), using hadronic Z boson decays produced in e+e- collisions. However, recent work has revealed discrepancies between event-shape-based extractions of αS and values determined using other experimental methods. This work reexamines archived e+e- data collected at a collision energy of s=91.2 GeV by the ALEPH detector at the Large Electron-Positron Collider. Modern machine learning techniques are used to correct for detector effects in an unbinned manner, allowing the T distribution to be measured with higher granularity than previous ALEPH measurements. The new measurement reveals a small but systematic shift towards larger values of τ=1-T, and the potential implications of this shift for αS extractions are illustrated by comparing to state-of-the-art theoretical calculations. In addition, the region of -6<τ<-2, where poorly-understood non-perturbative effects are large, is compared to modern parton shower Monte Carlo simulations. This measurement provides unique new inputs for αS extractions and also improves constraints on phenomenological models of QCD dynamics such as parton fragmentation and hadronization.

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