Theory-Data Comparisons for Jet Measurements in Hadron-Induced Processes
M. Wobisch, D. Britzger, T. Kluge, K. Rabbertz, F. Stober (fastNLO, Collaboration)
TL;DR
This paper reviews how well theoretical models of inclusive jet production match experimental data from various hadron-induced processes across different energies, focusing on comparisons based on jet transverse momentum and scaling variables.
Contribution
It provides a comprehensive comparison framework for theory and data in jet production, using recent parton distribution functions across multiple energies.
Findings
Good agreement observed in certain kinematic regions
Discrepancies highlight areas for theoretical improvement
Guidance for future experimental and theoretical work
Abstract
We present a comprehensive overview of theory-data comparisons for inclusive jet production. Theory predictions are derived for recent parton distribution functions and compared with jet data from different hadron-induced processes at various center-of-mass energies sqrt(s). The comparisons are presented as a function of jet transverse momentum pT or, alternatively, of the scaling variable xT = 2pT/sqrt(s).
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Taxonomy
TopicsParticle physics theoretical and experimental studies · High-Energy Particle Collisions Research · Quantum Chromodynamics and Particle Interactions