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Energy correlations in the end-point region

G.P. Korchemsky

2020Journal of High Energy Physics66 citationsDOIOpen Access PDF

Abstract

A bstract The energy-energy correlation (EEC) measures the angular distribution of the energy that flows through two calorimeters separated by some relative angle in the final state created by a source. We study this observable in the limit of small and large angles when it describes the correlation between particles belonging, respectively, to the same jet and to two almost back-to-back jets. We present a new approach to resumming large logarithmically enhanced corrections in both limits that exploits the relation between the energy correlations and four-point correlation functions of conserved currents. At large angle, we derive the EEC from the behaviour of the correlation function in the limit when four operators are light-like separated in a sequential manner. At small angle, in a conformal theory, we obtain the EEC from resummation of the conformal partial wave expansion of the correlation function at short-distance separation between the calorimeters. In both cases, we obtain a concise representation of the EEC in terms of the conformal data of twist-two operators and verify it by comparing with the results of explicit calculation at next-to-next-to-leading order in maximally supersymmetric Yang-Mills theory. As a byproduct of our analysis, we predict the maximal weight part of the analogous QCD expression in the back-to-back limit.

Topics & Concepts

ResummationPhysicsObservableCorrelation function (quantum field theory)Conformal mapLimit (mathematics)Quantum chromodynamicsFunction (biology)Jet (fluid)CumulantConformal field theoryEnergy (signal processing)Sum rule in quantum mechanicsQuantum electrodynamicsStatistical physicsDistribution (mathematics)Distribution functionOrder (exchange)CorrelationRepresentation (politics)Mathematical physicsParticle physicsOperator product expansionThermodynamic limitConformal anomalySeries (stratigraphy)Particle physics theoretical and experimental studiesHigh-Energy Particle Collisions ResearchQuantum Chromodynamics and Particle Interactions