arXiv : Precise Determination of the Strong Coupling Constant from Dijet Cross Sections up to the Multi-TeV Range

Ahmadova, Fazila; Glover, Nigel; Britzger, Daniel; Gehrmann-De Ridder, Aude; Gwenlan, Claire; Huss, Alexander; Pires, João; Sutton, Mark; Rabbertz, Klaus; Kunz, Lucas; Gäßler, Johannes; Heinrich, Gudrun; Gehrmann, Thomas; Chen, Xuan

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Preprint
Report number	CERN-TH-2024-224 ; KA-TP-25-2024 ; MPP-2024-260 ; ZU-TH/01/25 ; arXiv:2412.21165
Title	Precise Determination of the Strong Coupling Constant from Dijet Cross Sections up to the Multi-TeV Range
Author(s)	Ahmadova, Fazila (Garching, Max Planck Inst. ; Zurich U.) ; Britzger, Daniel (Garching, Max Planck Inst.) ; Chen, Xuan (Shandong U.) ; Gäßler, Johannes (KIT, Karlsruhe, ETP) ; Gehrmann-De Ridder, Aude (Zurich U. ; Zurich, ETH) ; Gehrmann, Thomas ; Glover, Nigel (Zurich U. ; Durham U., IPPP) ; Gwenlan, Claire (Oxford U.) ; Heinrich, Gudrun (KIT, Karlsruhe, TP) ; Huss, Alexander (CERN) ; Kunz, Lucas (KIT, Karlsruhe, TP) ; Pires, João (CMAF, Lisbon) ; Rabbertz, Klaus (KIT, Karlsruhe, ETP) ; Sutton, Mark (Sussex U.)
Document contact	Contact: arXiv
Imprint	2024-12-30
Number of pages	5
Note	5 pages plus appendix and supplementary material
Subject category	hep-ex ; Particle Physics - Experiment ; hep-ph ; Particle Physics - Phenomenology
Abstract	We determine the value of the strong coupling $\alpha_\text{s}$ and study its running over a wide range of scales as probed by the dijet production process at hadron colliders, based on an NNLO QCD analysis of LHC dijet data. From a large subset of these data a value of $\alpha_\text{s} (m_\text{Z}) = 0.1178 \pm 0.0022$ is obtained for the strong coupling at the scale of the Z-boson mass $m_\text{Z}$, using the invariant mass of the dijet system to select the scale where $\alpha_\text{s}$ is probed. The combination of different data sets enhances the reach and precision of the analysis in the mutli-TeV range and allows for the first determination of $\alpha_\text{s}$ up to scales of 7 TeV. Complementing the LHC data with dijet cross sections measured at the HERA electron-proton collider, the kinematic range is extended to test the running of the strong coupling towards smaller scales. Our results exhibit excellent agreement with predictions based on the renormalization group equation of QCD, and represent a comprehensive test of the asymptotic behavior of QCD, spanning more than three orders of magnitude in energy scale.
Other source	Inspire
Copyright/License	preprint: (License: arXiv nonexclusive-distrib 1.0)

$Running of the strong coupling as a function of the chosen renormalization scale. The inner error bars indicate the (fit,PDF) uncertainty, and the outer error bars the total uncertainty. The upper panel displays the values \asmur and the lower panel displays the ratio of the respective \asmz value to the world average value~\cite{ParticleDataGroup:2024cfk}. The hatched area indicates the value of \asmz from LHC dijet data and its running as a function of \mur.$ $Left: Running of the strong coupling as a function of the chosen renormalization scale. The inner error bars indicate the (fit,PDF) uncertainty, and the outer error bars the total uncertainty. The upper panel displays the values \asmur and the lower panel displays the ratio of the respective \asmz value to the world average value~\cite{ParticleDataGroup:2024cfk}. The hatched area indicates the value of \asmz from LHC dijet data and its running as a function of \mur. Right: same figure as left, but showing also other data for comparison.$

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